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AMERICAN TRANSMISSION SYSTEMS, INCORPORATED
A FIRSTENERGY COMPANY
LETTER OF NOTIFICATION
KIRBY-ROBERTS 138 kV TRANSMISSION LINE LOOP TO CRISSINGER SUBSTATION
OPSB CASE NO.: 19-0803-EL-BLN
April 15, 2019
American Transmission Systems, Incorporated 76 South Main Street
Akron, Ohio 44308
1 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
LETTER OF NOTIFICATION
KIRBY-ROBERTS 138 kV TRANSMISSION LINE LOOP TO CRISSINGER SUBSTATION PROJECT
The following information is being provided in accordance with the procedures in the Ohio
Administrative Code (OAC) Chapter 4906-6 for the application and review of Accelerated
Certificate Applications. Based upon the requirements found in Appendix A to OAC Rule 4906-
1-01, this Project qualifies for submittal to the Ohio Power Siting Board (“Board”) as a Letter of
Notification application.
4906-6-05: ACCELERATED APPLICATION REQUIREMENTS
4906-6-05: Name Name of Project: Kirby-Roberts 138 kV Transmission Line Loop to
Crissinger Substation Project (“Project”). 4906-6-05 (B)(1): Brief Description of the Project
In this Project, American Transmission Systems, Incorporated (“ATSI”), a FirstEnergy
company, is proposing to construct approximately 6,900 feet (1.31 miles) of new
transmission line to loop the existing Kirby-Roberts 138 kV Transmission Line into the
existing Crissinger Substation. In addition, the Project will expand the Crissinger
Substation from a four (4) breaker ringbus configuration to a six (6) breaker ringbus
configuration requiring an approximately 11.8% expansion of the substation.
The existing Kirby-Roberts 138 kV Transmission Line will be looped into the Crissinger
Substation creating two new transmission lines, the Crissinger-Kirby 138 kV
Transmission Line and the Crissinger-Roberts #2 138 kV Transmission Line. The new
transmission line will begin at existing Structure 3014. The existing Kirby-Roberts 138
kV Transmission Line attaches to this structure along with the existing Crissinger-Tangy
138 kV Transmission Line. This Project will remove the existing spans on the Kirby-
Roberts 138 kV Transmission Line between existing Structure 11732 and Structure 5031.
Once removed, a new mid-span structure and conductor will be placed between the
2 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
existing structure 11732 and proposed structure 11734, and new conductor will be placed
between proposed structure 11734 and existing structure 5031.
The new Crissinger-Kirby 138 kV Transmission Line will connect from Structure 11732,
which is to be reinforced with new guying, to a new single circuit wood pole Structure
11733. This transmission line will then join the new Crissinger-Roberts #2 138 kV
Transmission Line on a double circuit wood pole Structure 11734 and continue east for
approximately 5,490 feet (1.04 miles) to Structure 11755 where the Crissinger-Roberts
#2 138 kV Transmission Line crosses underneath the Crissinger-Kirby 138 kV
Transmission Line. From here the Crissinger-Roberts #2 138 kV Transmission Line
continues east for an additional 440 feet (0.08 miles) until it reaches Crissinger
Substation. The Crissinger-Kirby 138 kV Transmission Line continues northeast and then
south for approximately 610 feet (0.12 miles) until it reaches Crissinger Substation.
Crissinger Substation will be expanded by approximately 11.8% of the existing area to
accommodate the expansion of the ring bus. The existing fenced area is approximately
74,860 square feet. Approximately 8,861 square feet of new fenced area will be added to
the substation. Approximately 78 linear feet of new fence will be added.
The general location of the Project is shown in Exhibit 1, a partial copy of the United
States Geologic Survey, Marion County OH, Quad Map, ID number 40083-E2. Exhibit 2
is a partial copy of Bing aerial imagery. The Project is located near Crissinger Substation
at 1734 Crissinger Rd, Marion, OH 43302. The general layout is shown in Exhibit 3. The
Project is located in Pleasant Township, Green Camp Township, and Marion Township,
Marion County, Ohio.
4906-6-05 (B)(1): Letter of Notification Requirement
The Project meets the requirements for a Letter of Notification because the Project is
within the types of projects defined by Item (1)(b) of the Application Requirement Matrix
for Electric Power Transmission Lines, Appendix A of OAC Rule 4906-1-01. This item
states:
3 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
(1) New construction, extension, or relocation of single or multiple circuit electric
power transmission line(s), or upgrading existing transmission or distribution
line(s) for operating at a higher transmission voltage, as follows:
(b) Line(s) greater than 0.2 miles in length but not greater than two miles
in length.
The proposed Project is within the requirements of Item (1)(b) as it involves constructing
approximately 1.31 miles of new transmission line. The substation expansion is
jurisdictional under Item (4)(a) which states:
(4) Constructing additions to existing electric power transmission stations or
converting distribution stations to transmission stations where:
(a) There is a twenty percent or less of the fenced area.
The Proposed substation expansion will require an expansion of approximately 11.8% of
the fenced area. This meets the requirements of a Construction Notice filing if it were to
be filed separately. It is included with the transmission line portion of the work here
since the two projects have the same need and will begin construction at approximately
the same time.
4906-6-05 (B)(2): Need For the Project
The proposed Project includes the expansion of the Crissinger 138 kV Substation in
Marion, Ohio to allow for the utilization of existing open bay positions to add two
breakers to expand the substation from a four-breaker ring bus to a six-breaker ring bus.
The Project also includes the looping of the existing Kirby – Roberts 138 kV Line into
Crissinger substation by adding approximately 1.2 miles of double circuit from the
existing Kirby – Roberts 138 kV Line to Crissinger Substation. Currently the Kirby-
4 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Roberts 138kV Transmission Line bypasses the Crissinger Substation. After the Project
is complete, the 138 kV line exits out of the Crissinger substation will be:
Crissinger – Roberts #1 Crissinger – Roberts #2 Crissinger – Tangy Crissinger – Kirby Crissinger – Transformer #1 Crissinger – Transformer #2.
The expansion of the Crissinger Substation will provide an additional 138 kV source to
the planning area and provide additional reliability and improved operational flexibility
under system restoration and maintenance conditions. It will reduce the amount of local
load loss in the area (approximately 99 MWs and 5,000 customers) and mitigate the
potential local voltage collapse on the 34.5 kV sub-transmission system for the loss of the
Crissinger-Roberts 138 kV line followed by the loss of the Crissinger-Tangy 138 kV line
or the loss of the Crissinger-Tangy 138 kV line followed by the loss of the Crissinger-
Roberts 138 kV line.
The loss of two 138 kV transmission lines, which is a defined as a NERC P6 (N-1-1)
system contingency, can happen with the scheduled or unscheduled outage of the
Crissinger-Roberts 138 kV line followed by an unforeseen or unplanned outage of the
Crissinger-Tangy 138 kV line due to a storm or other unplanned event. This system
contingency is also valid for the scheduled or unscheduled outage of the Crissinger-
Tangy 138 kV line followed by the unforeseen or unplanned outage of the Crissinger-
Roberts 138 kV line. The Project is designed to mitigate the impact of these defined
system contingencies by providing an additional 138 kV source into the planning area
and maintaining service to the 5,000 customers and approximately 99 MWs of load in the
event of these contingences.
Over the past five years, the Crissinger-Roberts 138 kV line has experienced one
sustained outage (1h 37m) and three momentary outages, and the Crissinger-Tangy 138
kV line has experienced two sustained outages (average duration 4.5m) and one
momentary outage.
5 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
The alternative considered for this Project was to add another capacitor bank at
Crissinger 138 kV substation. It was not selected because it was not a strong enough
source to support the potential voltage drop and local voltage collapse on the 34.5 kV
sub-transmission system under contingency conditions.
The Crissinger 138 kV Ring Bus Expansion Project was presented to PJM during the
western sub-regional TEAC meeting on 08/31/2018 and was assigned the Supplemental
RTEP number s1696. The slide from the PJM meeting this was presented at is included
as Exhibit 4. The scheduled in-service date is 12/31/2019. This Project will be included in
the 2019 Long Term Forecast Report.
4906-6-05 (B)(3): Location of the Project Relative to Existing or Proposed Lines
The location of the Project relative to existing or proposed lines is shown in the ATSI
Transmission Network Map, included as part of the confidential portion of the
FirstEnergy Corp. 2018 Long-Term Forecast Report. This map was submitted to the
PUCO in Case No. 18-0449-EL-FOR under Rule 4901:5-5:04 (C)(2)(b) of the Ohio
Administrative Code. The map is incorporated by reference only. This map shows
ATSI’s 345 kV and 138 kV transmission lines and transmission substations including the
Kirby-Roberts 138 kV Transmission Line and Crissinger Substation. The project area is
located approximately 4 3/10 inches (11” x 17” printed version) from the left edge of the
map and approximately 6 inches (11” x 17” printed version) from the top of the map.
The general location and layout of the project area is shown in Exhibit 1 and 2.
4906-6-05 (B)(4): Alternatives Considered
Alternatives to the proposed Project included the following:
No Action – Continued operation of the system as currently configured does not
reduce the risk of the loss of approximately 99 MW of load and corresponding
loss of service to approximately 5,000 customers of FirstEnergy under
contingency scenarios.
6 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Alterative to the ring bus expansion – An alternative to the ring bus expansion
considered for the project was to add another capacitor bank at Crissinger 138 kV
substation. It was not selected because it was not a strong enough source to
support the potential voltage drop and local voltage collapse on the 34.5 kV sub-
transmission system.
Alternative transmission line design:
One alternative design of the transmission line extension that was considered was the
conversion of the existing 6-wire configuration on the Crissinger-Tangy 138 kV
Transmission Line to a 3-wire configuration to accommodate the new Crissinger-Kirby
138 kV Transmission Line. Under this alternative, the new Crissinger-Kirby 138 kV
Transmission Line would have been on the north side of the existing towers and the
Crissinger-Tangy 138 kV Transmission Line would have been on the south side of the
towers. The new Crissinger-Roberts No. 2 138 kV Transmission Line would have
followed the proposed double circuit path north of the existing centerline in a single
circuit configuration.
This design was determined to be infeasible given the proposed configuration of
Crissinger Substation for the Kirby and Tangy 138 kV Transmission Lines, which could
not be switched without causing both proposed 138 kV circuits to cross outside of
Crissinger Substation. To achieve this, two 3-pole structures with guying would be
required in a span of approximately 480 feet. Furthermore, by converting the existing
towers to double circuit operation with two 3-wire configurations, larger conductor would
be required to satisfy current FirstEnergy protection specifications. A reconductor may
have also resulted in the further need to reinforce or replace several, if not all, of the
towers to account for any additional loading. Given the complications associated with
this alternative, coupled with the need for and availability of the expanded right-of way to
install the new line extension, the proposed solution is considered the best available
option for the Project.
7 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
4906-6-05 (B)(5): Public Information Program
ATSI’s manager of External Affairs will advise local officials of features and the status
of the proposed Transmission Line Project as necessary. ATSI will maintain a copy of
this Letter of Notification on FirstEnergy’s website. Letters will be sent to affected
property owners at least 7 days before construction begins on the Project informing them
of the Project’s start and a proposed timeframe of construction and restoration activities.
ATSI will publish notice of the Project in the Marion Star. Additionally, letters will be
sent to affected property owners when this Letter of Notification application is submitted
to the Board informing them of the Project.
4906-6-05 (B)(6): Construction Schedule
The construction schedule for this Project is expected to begin as early as May 13, 2019
and completed by December 31, 2019.
4906-6-05 (B)(7): Area Map
Exhibit 1 depicts the general location of the Project. This Exhibit provides a partial copy
of the United States Geological Survey, Marion County OH, quadrangle map (Quad
Order ID 40083-E2). Exhibit 2 provides a partial copy of Bing aerial imagery of the
Project Area.
4906-6-05 (B)(8): Property Owner List
The Project is located on new and existing right-of-way and new right-of-way is required
for the Project. The existing right-of-way is 100 feet wide. The new right-of-way will
include an expansion of the existing right-of-way by 30 feet to the north. Table 1 contains
a list of property owners effected by the project.
8 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Table 1: Property Owner List
Parcel Number Property Owner Property Address Easement Status
100040000400 Ohio Department of Natural Resources
2045 Morse Rd, Bldg C4, Columbus, OH 43229
New Easement Being Obtained
250110000400 Ohio Department of Natural Resources
2045 Morse Rd, Bldg C4, Columbus, OH 43229
Easement Obtained
250110000100 Pheasants Forever Inc.
1783 Buerkle Circle, St Paul, MN 55110
New Easement Being Obtained
250830600300 Ohio Edison 800 Cabin Hill Dr, Greensburg, PA 15601
Easement Obtained
250830600200 Ohio Edison 800 Cabin Hill Dr, Greensburg, PA 15601
Easement Obtained
170080004700 Beaver David D Etal
359 W Newmans Cardington Rd, Prospect, OH 43342
Easement Obtained
170080004600 Pheasants Forever Inc.
1783 Buerkle Circle, St Paul, MN 55110
Easement Obtained
170080004500 Clabaugh Lynn M Etal
Marion Green Camp Rd, Marion, OH 43302
Easement Obtained
4906-6-05 (B)(9): TECHNICAL FEATURES OF THE PROJECT
4906-6-05 (B)(9)(a): Operating Characteristics
The transmission line construction will have the following characteristics:
Transmission Line: Crissinger-Tangy
Voltage: 138 kV
Conductors: 6-Wire 336 kcmil 26/7 ACSR
Static Wire: 7#8 Alumoweld
Insulators: Polymer
9 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Transmission Line: Crissinger-Kirby
Voltage: 138 kV
Conductors: 795 kcmil 26/7 ACSR
Static Wire: 3#6 Alumoweld
Insulators: Polymer
Transmission Line: Crissinger-Roberts #2
Voltage: 138 kV
Conductors: 795 kcmil 26/7 ACSR
Static Wire: 3#6 Alumoweld
Insulators: Polymer
ROW Width: 100 feet of existing
30 feet of new
Land Requirements: N/A
Structure Types: Exhibit 5: Vertical Double Circuit Horizontal Post Wood Pole
Structure. Nineteen (19) structures are needed.
Exhibit 6: Vertical Stacked Double Circuit Horizontal Post Wood
Pole Structure. One (1) structure is needed.
Exhibit 7: Deadend Vertical Single Circuit Wood Pole Structure.
One (1) structure is needed.
Exhibit 8: Custom Double Circuit Tangent Wood Pole Crossing
Structure. One (1) structure is needed.
Exhibit 9: Custom Double Circuit Tangent Wood Pole Crossing
Structure. One (1) structure is needed.
Exhibit 10: Single Circuit Suspension Wood Pole Structure. One
(1) structure is needed.
Exhibit 11: Single Circuit Braced Post Steel Pole Structure. Two
(2) structures are needed.
Exhibit 12: Single Circuit Wood Pole Structure Horizontal Post
Delta Single Pole. One (1) structure is needed.
10 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
The substation expansion construction will have the following characteristics:
Bus work: 100 feet of new aluminum bus added
200 feet of existing aluminum bus is removed
Breakers: 4 138 kV, 3000 A SF6 Breakers
Switches: 9 138 kV, 2000A Disconnect Switches
Wave Trap: 2 138 kV, 2000A
CCVTs: 6 138 kV CCVTs
Fence: 78 linear feet of fence is added
4906-6-05 (B)(9)(b): Electric and Magnetic Fields
The closest occupied residence or institution is approximately 115 feet from the proposed
transmission line centerline therefore no Electric and Magnetic Field (“EMF”)
calculations are required by this code provision.
4906-6-05 (B)(9)(c): Estimated Cost
The total estimated capital cost for the proposed project is approximately $7,647,700.
This includes approximately $2,801,100 for transmission line portion and approximately
$4,846,600 for the substation portion.
4906-6-05 (B)(10): SOCIAL AND ECOLOGICAL IMPACTS
4906-6-05 (B)(10)(a): Land Uses
The Project is located in Pleasant Township, Green Camp Township, and Marion
Township, Marion County, Ohio. The main land use around the Project is agricultural.
4906-6-05 (B)(10)(b): Agricultural Land
Agricultural land does exist within the Project’s disturbance area. Most of the agricultural
land is in row crops located within the right-of-way. Three (3) of the four (4) parcels are
rented fields and the proposed Project will not conflict with their continued use. A list of
all agricultural land and acreage including agricultural district land is given in Table 2.
11 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Table 2: Agricultural Lands within the Project’s Disturbance Area
Parcel Number Property Owner Acreage Agricultural
District Agricultural
District Expiration
250110000100 Pheasants Forever Inc. 9 No N/A
250830600300 Ohio Edison 24.8 No N/A
250830600200 Ohio Edison 18.6 No N/A
170080004500 Clabaugh Lynn M Etal 55.6 Yes 2024
4906-6-05 (B)(10)(c): Archaeological or Cultural Resources
As part of the investigation, a search of Ohio Historic Preservation Office (“OHPO”)
online database was conducted to identify the existence of any significant archeological
or cultural resource sites within 0.5 miles of the Project Area. The results of the search
are shown in Exhibit 13. The specific location of any archeological resource is excluded
from the map and are instead listed in Table 3.
The OHPO database includes all Ohio listings on the National Register of Historic Places
(“NRHP”), including districts, sites, building, structures, and objects that are significant
in American history, architecture, archeology, engineering, and culture. The results of
the search indicate that no listed NRHP sites and no NRHP eligible sites were identified
within 0.5 miles of the Project potential disturbance area.
The OHPO database also includes listing of the Ohio Archaeological Inventory (“OAI”),
the Ohio Historic Inventory (“OHI”), previous cultural resource surveys, and the Ohio
Genealogical Society (“OGS”) cemetery inventory. Three (3) OAI listed archeological
resources have been previously inventoried within 0.5 miles of the Project area and are
shown in Table 3. No OHI listed structural resources are located within 0.5 miles of the
Project area. Four (4) previous cultural resource surveys were conducted within 0.5
12 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
miles of the Project area and are listed in Table 4. One (1) OSG cemetery is located
within 0.5 miles of the Project area and is identified in Table 5.
Table 3. List of OAI Listed Archeological Resources
OAI Number
Affiliation Description County Quad Name
MN0061 Prehistoric Unknown Prehistoric Marion Marion West
MN0062 Prehistoric Unknown Prehistoric Marion Marion West
MN0063 Prehistoric Unknown Prehistoric Marion Marion West
Table 4. List of Previous Cultural & Historic Resource Survey
Year Name County Municipality
1995
Phase I Archaeological Survey for Ohio Edison Company's Proposed Kirby-Roberts 138 kV Transmission Line in Marion and Union Counties, Ohio
Marion Pleasant Township
2012
Phase I Cultural Resource Management Survey of a Proposed 9 ha (22.4a.) Wetland Restoration Project in Green Camp and Pleasant Townships, Marion County, Ohio
Marion
Green Camp Township &
Pleasant Township
2018
Additional Phase I Archaeological Investigations for the Approximately 39.9 km (24.8 mi) Harpster-South Morral 69 kV Rebuild Project in Pitt Township, Wyandot County and Waldo/Pleasant/Big Island/Salt Rock Townships, Marion County, Ohio
Marion Pleasant Township
2018
Additional Phase I Archaeological Investigations for the Approximately 39.9 km (24.8 mi) Harpster-South Morral 69 kV Rebuild Project in Pitt Township, Wyandot County and Waldo/Pleasant/Big Island/Salt Rock Townships, Marion County, Ohio
Marion Pleasant Township
13 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Table 5. List of OGS cemeteries
OGS ID Name County Location
7384 Cusick Marion Not Confident
The closest OAI is located approximately 0.20 miles away. The closest Phase 1 survey is
located along the new transmission line centerline near Crissinger Substation and near the
existing Kirby-Roberts 138 kV Transmission Line. Based upon the results of the OHPO
online database there are no cultural resources within the Project’s area and no impacts
are expected.
Although, the OSG cemetery location is rated “not confident”, notes in the OHPO
database indicate that is located within 400 feet of the intersection of Crissinger Road and
Bellefontaine Avenue. This would place the cemetery approximately 0.45 miles away
from the Project area. Consequently, no impacts are expected.
4906-6-05 (B)(10)(d): Local, State, and Federal Requirements
Table 6 shows the list of government agency requirements and the filing status at the time
of filing.
Table 6. List of Government Agency Requirements to be Secured Prior to
Construction
Agency Permit Requirement Status
Ohio EPA General NPDES Construction Strom Water Permit Will be Filed
4906-6-05 (B)(10)(e): Endangered, Threatened, and Rare Species Investigation
ATSI contracted AECOM to submit a request to the Ohio Department of Natural
Resources (“ODNR”) Office of Real Estate to conduct an Environmental Review As part
of the Environmental Review, the ODNR Office of Real Estate conducted a search of the
14 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
ODNR Division of Wildlife’s Natural Heritage Database to research the presence of any
endangered, threatened, or rare species within one (1) mile of the Project area. The
ODNR’s Office of Real Estate’s response on March 25, 2019 indicated that four (4)
federally and state endangered species, one (1) federally threatened and state endangered
species, one (1) federal candidate and state endangered species, two (2) state endangered
species, and one (1) state threatened species are within the range of the identified Project
area. The ODNR also indicated there are records of the Bald Eagle (Haliaeetus
leucocephalus) within the one mile of the Project area. A copy of ODNR’s Office of Real
Estate’s response is included as Exhibit 14.
ATSI contracted AECOM to submit a request to the US Fish and Wildlife Service
(“USFWS”) for an Ecological Review, to research the presence of any endangered,
threatened, or rare species within one (1) mile of the Project area. A copy of USFWS’s
Ecological Review response is included as Exhibit 15. The USFW’s response on March
1, 2019 indicated that they have records of one (1) federally endangered and (1) federally
threatened species. A list of all endangered, threatened, and rare species, as identified by
ODNR and USFWS, is provided in Table 7.
Table 7: List of Endangered, Threatened, and Rare Species
Common Name
Scientific Name Federal Listed Status
State Listed Status
Affected Habitat
Indiana Bat Myotis sodalis Endangered Endangered Trees & Forest
Northern Long-Ear Bat
Myotis septentrionalis
Threatened Threatened Trees & Forest
Clubshell Pleurobema clava Endangered Endangered In-Water, Streams
Rayed Bean Villosa fabalis Endangered Endangered In-Water, Streams
Snuffbox Epioblasma triquetra Endangered Endangered In-Water, Streams
15 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Table 7: List of Endangered, Threatened, and Rare Species
Common Name Scientific Name
Federal Listed Status
State Listed Status
Affected Habitat
Rabbitsfoot Quadrula cylindrica cylindrica
Candidate Endangered In-Water, Streams
Pondhorn Uniomerus tetralasmus
N/A Threatened In-Water, Streams
Eastern Massasauga Sistrurus catenatus Threatened Endangered Wetlands
American Bittern Botaurus lentiginosus N/A Endangered Wetlands
King Rail Rallus elegans N/A Endangered Grass & Marsh
Bald Eagle Haliaeetus leucocephalus
Protected Protected Trees
The response from ODNR and USFWS indicated Project is within the range of the
federally and state endangered Indiana Bat (Myotis sodalis) and the federally threatened
Northern Long-Eared Bat (Myotis septentrionalis). Tree clearing is needed along a
portion of the right-of-way. Tree clearing will be completed between October 1st and
March 31st to avoid affecting any potential bat habitat. If this schedule cannot be
achieved and the clearing of trees outside of this window is deemed necessary, ATSI will
conduct a bat survey this summer and subsequent consultation with ODNR and USFWS
will be completed prior to clearing.
The response from ODNR indicated that the mussel species listed in the Project area
include clubshell (Pleurobema clava), rayed bean (Villosa fabalis), snuffbox
(Epioblasma triquertra), rabbitsfoot (Quadrula cylindrical cylindrical), and pondhorn
(Uniomerus tetralasmus) and the ODNR recommend that no in-water work should occur
in perennial streams from April 15 to June 30. Based on the recent wetland delineation
and stream assessment, only one perennial stream (Stream CK-03) was identified within
the Project area. ATSI is not planning on crossing this stream and therefore no adverse
affects to these species are anticipated.
16 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
The response from ODNR indicated that the Project is within the range of the American
bittern (Botaurus lentiginosus). This species requires large undisturbed wetlands with
small pools and dense vegetation including bogs, large wet meadows, and dense shrubby
swamps. ODNR recommends avoiding impacts to this species habitat during the period
of May 1 to July 31. The results of the wetland delineation and stream assessment
identified a total of six wetland habitats including four palustrine emergent wetland
(PEM), one palustrine scrub-shrub wetland (PSS), and one PSS/palustrine forested
wetland (PFO) complex. The three of the four PEM wetlands are recently or previously
disturbed by agricultural activities and would likely not be able to support a population of
these species. The remaining PEM wetland is a small wetland area located along the
edge of the survey area that will not be impacted by the Project. Even though, the PSS
and PSS/PFO wetland complexes have dense woody vegetation, the hydrologic
component of these wetlands are not inundated and would unlikely be able to provide the
necessary habitat components for this species.
The response from ODNR indicated that the Project is within the range of the King Rail
(Rallus elegans). This species nest in deep bowls constructed of grass within marshes
dominated by cattails and other tall emergent vegetation, preferably in wetlands larger
than 50 acres. However, this species has also nested in buttonbush swamps, wet
meadows, marshy pools in swamp forest, and brushy tangles in swamp meadows. The
king rail prefers permanently flooded wetlands where water depths are less than six
inches. The ODNR recommends avoiding impacts to this species habitat between May 1
to August 1. The results of the wetland delineation and stream assessment report did not
identify any inundated wetland areas or wetlands greater than 50 acres in size that would
be able to provide the necessary habitat components for this species.
The response from ODNR indicated that the Project is within the range of the Bald Eagle
(Haliaeetus leucocephalus). This species nest in trees close to large bodies of water. The
closest recorded sighting of an eagle to the Project was in 2017, approximately 0.6 miles
to the west in the Big Island Wildlife Area. No large bodies of water are located closer to
17 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
the Project area, and no eagles or potential nests were observed during the March 18,
2019 wetland and stream delineation survey. Therefore, no adverse effect to this species
is anticipated.
4906-6-05 (B)(10)(f): Areas of Ecological Concern
ATSI contracted AECOM to submit to the Ohio Department of Natural Resources
(“ODNR”) Office of Real Estate to conduct an Environmental Review. The ODNR
Office of Real Estate researched the presence of any unique ecological sites, geological
features, animal assemblages, scenic rivers, state wildlife areas, nature preserves, parks or
forest, national wildlife refuges, or other protected natural areas within one (1) mile of the
project area. The ODNR’s Office of Real Estate’s response on March 25, 2019 indicated
that they have two (2) records of these types of areas within one (1) mile of the identified
Project area. These areas are the Big Island Wildlife Area and the Trella Romine Prairie
Area.
The Big Island Wildlife Area at its closest point is located approximately 1000 feet away
from the Project. The Trella Romine Prairie at its closest point is located approximately
0.7 miles away from the Project. Due to the distance away from the Project area there
are no anticipated impacts to either of these Wildlife areas
ATSI contracted AECOM to conduct a wetland and stream assessment of the Project
area. The AECOM investigation focused on an approximately 8-acre study area around
the proposed Project centerline, access roads, and additional workspace areas. During the
study, AECOM identified seven (7) wetland areas totaling 1.15 acres, two (2) intermittent
streams totaling 968 linear feet, and one (1) perennial stream totaling 269 linear feet. No
Ponds were located within the surveyed area. A copy of the wetland and stream
assessment report is provided in Exhibit 16.
No impacts to wetlands or streams will be necessary to complete the Project. All
proposed access roads for Project are planned to utilize construction matting or other best
18 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
management practices to minimize temporary earth disturbance. A map of the proposed
access roads is provided in Exhibit 17.
The Project work limits do encroach on a regulated flood plain based on a review of
online FEMA Flood Insurance Rate Mapping. The Project will not fill any area within the
floodplain but will install 3 wood pole structures. Exhibit 17 depicts the location of the
regulated flood plains in relation to the Project Area.
4906-6-05(B)(10)(g): Other Information
Construction and operation of the proposed Project will be in accordance with the
requirements specified in the latest revision of the National Electric Safety Code as
adopted by the PUCO and will meet all applicable safety standards established by the
Occupational Safety and Health Administration.
No other or unusual conditions are expected that will result in significant environmental,
social, health or safety impacts.
4906-6-07: Documentation of Letter of Notification Transmittal and Availability for
Public Review
This Letter of Notification is being provided concurrently with its docketing with the
Board to the following officials in Pleasant Township, Green Camp Township, and
Marion Township, Marion County, Ohio.
Marion County Commissioner Kerr Murray Marion County Commissioners 222 West Center Street Marion, OH 43302
Commissioner Andy Appelfeller Marion County Commissioners 222 West Center Street Marion, OH 43302
19 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Commissioner Ken Stiverson Marion County Commissioners 222 West Center Street Marion, OH 43302 Mr. Bradley K. Irons, P.E., P.S. Marion County Engineer 222 West Center Street Marion, OH 43302
Ms. Evelyn Warr-Cummings, Director Marion County Planning Commission 222 West Center Street, 2nd Floor Marion, OH 43302
Pleasant Township Mr. David Schrote Pleasant Township Trustee 1252 E Marion-Cardington Rd. Marion, OH 43302 Mr. Steve Lust Pleasant Township Trustee 2650 W Newsman Cardington Rd. Prospect, OH 43342
Mr. Wayne Creasap Pleasant Township Trustee 2876 Smeltzer Rd. Marion, OH 43302 Mr. Lavon Verity Pleasant Township Fiscal Officer 1035 Owens Road West Marion, OH 43302
Green Camp Township Mr. Steve Ruth Green Camp Township Trustee 4245 Berry Rd Marion, OH 43302 Ms. Virginia Ralph Green Camp Township Trustee P.O. Box 114 Green Camp, OH 43322
Mr. Thomas McBeth Green Camp Township Trustee P.O. Box 219 Green Camp, OH 43322 Ms. Mary McBeth Green Camp Township Fiscal Officer P. O. Box 219 Green Camp, OH 43322
Marion Township Mr. Larry Ballinger Marion Township Trustee 1228 E. Fairground St Marion, OH 43302
Ms. Karen McCleary Marion Township Trustee 1228 E. Fairground St Marion, OH 43302
20 American Transmission Systems, Incorporated Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Mr. Lynn Thomas Marion Township Trustee 1228 E. Fairground St Marion, OH 43302
Ms. Sheila Perin Marion Township Fiscal Officer 1228 E. Fairground St Marion, OH 43302
Library Mr. Gary Branson Marion Public Library 445 E Church St Marion, OH 43302
Copies of the transmittal letters to these officials have been included with this application
as proof of compliance under OAC Rule 4906-6-07 (B) to provide the Board with proof
of notice to local officials as required by OAC Rule 4906-6-07 (A)(1) and to libraries per
OAC Rule 4906-6-07 (A)(2).
Information is posted at www.firstenergycorp.com/about/transmission_project/ohio.html
on how to request an electronic or paper copy of this Letter of Notification application.
The link to this website is being provided to meet the requirements of OAC Rule 4906-6-
07 (B) and to provide the Board with proof of compliance with the notice requirements in
OAC Rule 4906-6-07 (A)(3).
Project Area
Crissinger-Tangy 138kV andKirby-Roberts 138kV Project Area
Exhibit 1 Map Created On: 4/5/2019¯0 ¼ ½ ¾ 1
Miles
Orig Date: 2016Quad Series: 7.5'
Quad Order ID: 40083-E2Coverage: Marion West
Vendor: USGS
LegendProject Area
Project Area
Crissinger-Tangy 138kV andKirby-Roberts 138kV Project Area
Exhibit 2 Map Created On: 4/5/2019¯0 ¼ ½ ¾ 1
MilesLegendProject Area
PJM©2018 39
ATSI Transmission Zone: Supplemental Crissinger 138 kV Ring Bus Expansion
Previously Presented: 8/31/2018 SRRTEP Problem Statement (Scope and Need/Drivers): Operational Flexibility and Efficiency Improve operational flexibility during maintenance and restoration efforts Reduce amount of potential local load loss (Approximately 99 MWs) under
contingency conditions Mitigate non-planning criteria voltage concerns on the < 100 kV system under
contingency (P6) conditions. – Loss of Crissinger-Roberts 138 kV and Crissinger-Tangy 138 kV Lines – Results in potential local voltage collapse on the 34.5 kV sub-transmission system.
Selected Solution: Crissinger 138 kV Ring Bus Expansion (S1696) Expand existing Crissinger substation from a four (4) breaker to a six (6) breaker 138
kV ring bus. Cut and extend the Kirby-Roberts 138 kV line to Crissinger substation. (Approximately
1.0 mile) Reconfigure Crissinger substation to include terminals for:
Crissinger – Kirby 138 kV Line and Crissinger – Roberts #1 138 kV Line Crissinger – Roberts #2 138 kV Line and Crissinger – Tangy 138 kV Line
Estimated Project Cost: $5.8 M Projected IS Date: 12/31/2019 Status: Engineering
SRRTEP-West 9/28/2018
GROUND LINE
10'-6
"±
AP
PR
OX
IMA
TELY
101
'-6"±
1'-0"±
3'-0"±TYP.
10'-0
"±
5'-0"±TYP.
10'-0
"±10
'-0"±
10'-0
"±10
'-0"±
GROUND LINE
1'-6"±
9'-6
"±
AP
PR
OX
IMA
TELY
74'
-6"±
11'-0
"±11
'-0"±
DOWN
GUY
B B
A A
0'-8"±
1'-0"±
SECTION A-A
SECTION B-B
GROUND LINE
13'-0
"±
AP
PR
OX
IMA
TELY
92'
-6"±
1'-0"±
3'-0"±TYP.
6'-9"±TYP.
6'-9"±TYP.
4'-6"±TYP.
DOWN GUY
DOWN GUY
DOWN GUY DOW
N GUY
DOWN GUY
DOWN G
UY
10'-0
"±10
'-0"±
10'-0
"±11
'-0"±
11'-0
"±
1'-0"±
GROUND LINE
8'-3
"±
AP
PR
OX
IMA
TELY
106
'±
0'-9"±
12'-0
"±9'
-6"±
9'-6
"±12
'-0"±
18'-3
"±
5'-0"±TYP.
1'-0"±
DOWN GUY
DOWN GUY
DOWN GUY
DOWN
GUY
AA
GROUND LINE
12'-0
"±
AP
PR
OX
IMA
TELY
88'
±
12'-0
"±8'
-0"±
SECTION A-A
DOWNGUY
DOWN GUY
DO
WN
GU
Y
DOWN GUY
DOWN G
UY
DOWN G
UY
DOWN G
UY
0'-6"±
GROUND LINE
17'-7
"±
AP
PR
OX
IMA
TELY
83'
-93'
±
0'-6"±
6'-7"±TYP.
0'-6"±
8'-4"±TYP.
12'-0
"±12
'-0"±
Miles0.610.300
Legend
1: 24,000
[Datum]
This map is a user generated static output from an Internet mapping site and is for generalThis map is a user generated static output from an Internet mapping site and is for general reference only. Data layers that appear on this map may or may not be accurate, current, or otherwise reliable. THIS MAP IS NOT TO BE USED FOR NAVIGATION.
Copyright/Disclaimer
Datum:
WGS_1984_Web_Mercator_Auxiliary_Sphere
Projection:
NR Listings
Listed
National Historic Landmark
Delisted
NR Determinations of Eligibility
Historic Structures
Historic Bridges
Historic Tax Credit Projects
OGS Cemeteries
Confident
Not Confident
Dams
UTM Zone Split
NR Boundaries
Phase1
Phase2
Phase3
Historic Previously Surveyed Areas
Highways
Counties
NPS Parks
Wayne National Forest
Office of Real Estate
Paul R. Baldridge, Chief
2045 Morse Road – Bldg. E-2 Columbus, OH 43229
Phone: (614) 265-6649
Fax: (614) 267-4764
March 25, 2019
Brian Miller AECOM 525 Vine Street Cincinnati, Ohio 45202
Re: 19-165; Crissinger-Kirby 138 kV Loop and Crissinger Substation Expansion
Project: The proposed project consists of the installation of 1.1 miles of new 138 kV transmission loop line and the expansion of the Crissinger Substation. Location: The proposed project is located in Green Camp Township, Marion County, Ohio. The Ohio Department of Natural Resources (ODNR) has completed a review of the above referenced project. These comments were generated by an inter-disciplinary review within the Department. These comments have been prepared under the authority of the Fish and Wildlife Coordination Act (48 Stat. 401, as amended; 16 U.S.C. 661 et seq.), the National Environmental Policy Act, the Coastal Zone Management Act, Ohio Revised Code and other applicable laws and regulations. These comments are also based on ODNR’s experience as the state natural resource management agency and do not supersede or replace the regulatory authority of any local, state or federal agency nor relieve the applicant of the obligation to comply with any local, state or federal laws or regulations.
Natural Heritage Database: The Natural Heritage Database has the following records at or within a one-mile radius of the project area: Bald eagle (Haliaeetus leucocephalus), Federal species of concern Big Island Wildlife Area – ODNR Division of Wildlife Trella Romine Prairie – Appalachia Ohio Alliance The review was performed on the project area you specified in your request as well as an additional one-mile radius. Records searched date from 1980. This information is provided to inform you of features present within your project area and vicinity. Please note that Ohio has not been completely surveyed and we rely on receiving information from many sources. Therefore, a lack of records for any particular area is not a statement that rare species or unique features are absent from that area. Although all types of plant communities have been surveyed, we only maintain records on the highest quality areas.
Fish and Wildlife: The Division of Wildlife (DOW) has the following comments. The DOW recommends that impacts to streams, wetlands and other water resources be avoided and minimized to the fullest extent possible, and that best management practices be utilized to minimize erosion and sedimentation. The project is within the range of the Indiana bat (Myotis sodalis), a state endangered and federally endangered species. The following species of trees have relatively high value as potential Indiana bat roost trees to include: shagbark hickory (Carya ovata), shellbark hickory (Carya laciniosa), bitternut hickory (Carya cordiformis), black ash (Fraxinus nigra), green ash (Fraxinus pennsylvanica), white ash (Fraxinus americana), shingle oak (Quercus imbricaria), northern red oak (Quercus rubra), slippery elm (Ulmus rubra), American elm (Ulmus
americana), eastern cottonwood (Populus deltoides), silver maple (Acer saccharinum), sassafras (Sassafras albidum), post oak (Quercus stellata), and white oak (Quercus alba). Indiana bat roost trees consists of trees that include dead and dying trees with exfoliating bark, crevices, or cavities in upland areas or riparian corridors and living trees with exfoliating bark, cavities, or hollow areas formed from broken branches or tops. However, Indiana bats are also dependent on the forest structure surrounding roost trees. If suitable habitat occurs within the project area, the DOW recommends trees be conserved. If suitable habitat occurs within the project area and trees must be cut, the DOW recommends cutting occur between October 1 and March 31. If suitable trees must be cut during the summer months, the DOW recommends a net survey be conducted between June 1 and August 15, prior to any cutting. Net surveys should incorporate either nine net nights per square 0.5 kilometer of project area, or four net nights per kilometer for linear projects. If no tree removal is proposed, this project is not likely to impact this species. The DOW recommends no in-water work in perennial streams from April 15 to June 30 to reduce impacts to indigenous aquatic species and their habitat. If no in-water work is proposed in a perennial stream, this project is not likely to impact these or other aquatic species. The project is within the range of the clubshell (Pleurobema clava), a state endangered and federally endangered mussel, the rayed bean (Villosa fabalis), a state endangered and federally endangered mussel, the snuffbox (Epioblasma triquetra), a state endangered and federally endangered mussel, the rabbitsfoot (Quadrula cylindrica cylindrica), a state endangered and federal candidate mussel, and the pondhorn (Uniomerus tetralasmus), a state threatened mussel. Due to the location, and that there is no in-water work proposed in a stream of sufficient size, this project is not likely to impact these species. The project is within the range of the eastern massasauga (Sistrurus catenatus), a state endangered and federally threatened snake species. The eastern massasauga uses a range of habitats including wet prairies, fens, and other wetlands, as well as drier upland habitat. Due to the location, the type of habitat present at the project site and within the vicinity of the project area, this project is not likely to impact this species. The project is within the range of the American bittern (Botaurus lentiginosus), a state endangered bird. Nesting bitterns prefer large undisturbed wetlands that have scattered small pools amongst dense vegetation. They occasionally occupy bogs, large wet meadows, and dense shrubby swamps. If this type of habitat will be impacted, construction should be avoided in this habitat during the species’ nesting period of May 1 to July 31. If this type of habitat will not be impacted, this project is not likely to impact this species.
The project is within the range of the king rail (Rallus elegans), a state endangered bird. Nests for this species are deep bowls constructed out of grass and usually hidden very well in marsh vegetation. If this type of habitat will be impacted, construction should be avoided in this habitat during the species’ nesting period of May 1 to August 1. If no wetland habitat will be impacted, the project is not likely to impact this species. Due to the potential of impacts to federally listed species, as well as to state listed species, we recommend that this project be coordinated with the U.S. Fish & Wildlife Service. Water Resources: The Division of Water Resources has the following comment. The local floodplain administrator should be contacted concerning the possible need for any floodplain permits or approvals for this project. Your local floodplain administrator contact information can be found at the website below. http://water.ohiodnr.gov/portals/soilwater/pdf/floodplain/Floodplain%20Manager%20Community%20Contact%20List_8_16.pdf
ODNR appreciates the opportunity to provide these comments. Please contact Sarah Tebbe, Environmental Specialist, at (614) 265-6397 or [email protected] if you have questions about these comments or need additional information. John Kessler Environmental Services Administrator
1
Ruggiero, Augustine (Henslee, Dianna L)
Subject: Crissinger-Kirby 138 kV Loop and Crissinger Substation Expansion, Marion County
From: [email protected] [mailto:[email protected]] On Behalf Of Ohio, FW3 Sent: Friday, March 01, 2019 8:52 AM
To: Miller, Brian Cc: [email protected]; [email protected]
Subject: Crissinger-Kirby 138 kV Loop and Crissinger Substation Expansion, Marion County
TAILS# 03E15000-2019-TA-0758 Dear Mr. Miller, We have received your recent correspondence requesting information about the subject proposal. There are no
federal wilderness areas, wildlife refuges or designated critical habitat within the vicinity of the project
area. The following comments and recommendations will assist you in fulfilling the requirements for
consultation under section 7 of the Endangered Species Act of 1973, as amended (ESA).
The U.S. Fish and Wildlife Service (Service) recommends that proposed developments avoid and minimize
water quality impacts and impacts to high quality fish and wildlife habitat (e.g., forests, streams,
wetlands). Additionally, natural buffers around streams and wetlands should be preserved to enhance beneficial
functions. If streams or wetlands will be impacted, the Corps of Engineers should be contacted to determine
whether a Clean Water Act section 404 permit is required. Best management practices should be used to
minimize erosion, especially on slopes. All disturbed areas should be mulched and revegetated with native
plant species. Prevention of non-native, invasive plant establishment is critical in maintaining high quality
habitats.
FEDERALLY LISTED SPECIES COMMENTS: All projects in the State of Ohio lie within the range of the
federally endangered Indiana bat (Myotis sodalis) and the federally threatened northern long-eared
bat (Myotis septentrionalis). In Ohio, presence of the Indiana bat and northern long-eared bat is assumed
wherever suitable habitat occurs unless a presence/absence survey has been performed to document
absence. Suitable summer habitat for Indiana bats and northern long-eared bats consists of a wide variety of
forested/wooded habitats where they roost, forage, and travel and may also include some adjacent and
interspersed non-forested habitats such as emergent wetlands and adjacent edges of agricultural fields, old fields
and pastures. This includes forests and woodlots containing potential roosts (i.e., live trees and/or snags ≥3
inches diameter at breast height (dbh) that have any exfoliating bark, cracks, crevices, hollows and/or cavities),
as well as linear features such as fencerows, riparian forests, and other wooded corridors. These wooded areas
may be dense or loose aggregates of trees with variable amounts of canopy closure. Individual trees may be
considered suitable habitat when they exhibit the characteristics of a potential roost tree and are located within
1,000 feet (305 meters) of other forested/wooded habitat. Northern long-eared bats have also been observed
roosting in human-made structures, such as buildings, barns, bridges, and bat houses; therefore, these structures
should also be considered potential summer habitat. In the winter, Indiana bats and northern long-eared bats
hibernate in caves and abandoned mines.
2
Due to your proposal to conduct summer clearing, we recommend that a summer survey be conducted to
determine presence or probable absence of Indiana bats at the project site. The summer survey must be
conducted by an approved surveyor (list attached) and be designed and conducted in coordination with the
Endangered Species Coordinator for this office. In Ohio, summer mist net surveys must be conducted between
June 1 and August 15. We recommend that any Indiana bats and northern long-eared bats captured, especially
reproductively active females and juveniles, be monitored through radio-tracking to determine roost locations.
If any caves or abandoned mines may be disturbed, further coordination with this office is requested to
determine if fall or spring portal surveys are also warranted. Portal surveys must be conducted by an approved
surveyor and be designed and conducted in coordination with the Endangered Species Coordinator for this
office.
Survey results should be coordinated with this office prior to initiation of any work. Based on the results of the
survey(s), we will evaluate potential impacts to the Indiana bat from the proposed project. If a summer survey
documents probable absence of Indiana bats, the 4(d) rule for the northern long-eared bat could be applied
(see http://www.fws.gov/midwest/endangered/mammals/nleb/index.html).
If there is a federal nexus for the project (e.g., federal funding provided, federal permits required to construct),
no tree clearing should occur on any portion of the project area until consultation under section 7 of the ESA,
between the Service and the federal action agency, is completed. We recommend that the federal action agency
submit a determination of effects to this office, relative to the Indiana bat and northern long-eared bat, for our
review and concurrence.
Due to the project type, size, and location, we do not anticipate adverse effects to any other federally
endangered, threatened, proposed, or candidate species. Should the project design change, or during the term of
this action, additional information on listed or proposed species or their critical habitat become available, or if
new information reveals effects of the action that were not previously considered, consultation with the Service
should be initiated to assess any potential impacts.
These comments have been prepared under the authority of the Fish and Wildlife Coordination Act (48 Stat.
401, as amended; 16 U.S.C. 661 et seq.), the ESA, and are consistent with the intent of the National
Environmental Policy Act of 1969 and the Service's Mitigation Policy. This letter provides technical assistance
only and does not serve as a completed section 7 consultation document. We recommend that the project be
coordinated with the Ohio Department of Natural Resources due to the potential for the project to affect state
listed species and/or state lands. Contact John Kessler, Environmental Services Administrator, at (614) 265-
6621 or at [email protected].
If you have questions, or if we can be of further assistance in this matter, please contact our office at (614) 416-
8993 or [email protected].
Sincerely,
Patrice M. Ashfield
Field Office Supervisor
cc: Nathan Reardon, ODNR-DOW
Kate Parsons, ODNR-DOW
3
Attachment: Surveyors List
Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Case Number 19-0803-EL-BLN
Exhibit 16 Wetland Delineation and Stream Assessment Report
CRISSINGER-KIRBY 138 kV TRANSMISSION
LINE LOOP AND CRISSINGER SUBSTATION
EXPANSION PROJECT
WETLAND DELINEATION AND STREAM ASSESSMENT REPORT
Prepared for: American Transmission Systems, Inc. a FirstEnergy Company 76 South Main Street Akron, Ohio 44308
525 Vine Street, Suite 1800 Cincinnati, Ohio 45202 March 2019
Wetland Delineation And Stream Assessment Report
i Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
TABLE OF CONTENTS
1.0 INTRODUCTION ........................................................................................................................... 1
2.0 METHODOLOGY .......................................................................................................................... 2 2.1 WETLAND DELINEATION ............................................................................................. 2
2.1.1 Soils ....................................................................................................................... 3 2.1.2 Hydrology .............................................................................................................. 3 2.1.3 Vegetation .............................................................................................................. 3 2.1.4 Wetland Classifications ......................................................................................... 5 2.1.5 Ohio Rapid Assessment Method v. 5.0 .................................................................. 6
2.2 STREAM CROSSINGS ..................................................................................................... 7 2.2.1 OEPA Qualitative Habitat Evaluation Index ......................................................... 7 2.2.2 OEPA Primary Headwater Habitat Evaluation Index ............................................ 8 2.2.3 401 Eligibility Watersheds ..................................................................................... 9
3.0 RESULTS ...................................................................................................................................... 10 3.1 WETLAND DELINEATION ........................................................................................... 10
3.1.1 Preliminary Soils Evaluation ............................................................................... 10 3.1.2 National Wetland Inventory Map Review ........................................................... 10 3.1.3 Delineated Wetlands ............................................................................................ 10 3.1.4 Delineated Wetlands ORAM V5.0 Results ......................................................... 12
3.2 STREAM CROSSINGS ................................................................................................... 13 3.2.1 Qualitative Habitat Evaluation Index................................................................... 16 3.2.2 Primary Headwater Habitat Evaluation Index ..................................................... 16
3.3 PONDS ............................................................................................................................. 16
4.0 SUMMARY ................................................................................................................................... 16
5.0 REFERENCES .............................................................................................................................. 18
Wetland Delineation And Stream Assessment Report
ii Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
TABLES
Number
1 Soil Map Units and Descriptions within the Crissinger-Kirby 138kV Transmission Line Loop and Crissinger Substation Expansion Project Survey Boundary
2 Delineated Wetlands within the Crissinger-Kirby 138kV Transmission Line Loop and Crissinger Substation Expansion Project Survey Boundary
3 Delineated Streams within the Crissinger-Kirby 138kV Transmission Line Loop and Crissinger Substation Expansion Project Survey Boundary
FIGURES
Number
1 Overview Map 2A – 2C Soil Map Unit and National Wetland Inventory Maps 3A – 3C Wetland Delineation and Stream Assessment Maps
APPENDICES
Appendix
A U.S. Army Corps of Engineers Wetland and Upland Forms B OEPA Wetland ORAM Forms C OEPA HHEI Stream Forms D Representative Streams and Wetlands Photographs
Wetland Delineation And Stream Assessment Report
iii Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
LIST OF ACRONYMS and ABBREVIATIONS
ATSI American Transmission Systems, Inc. DBH Diameter at Breast Height °F Degree Fahrenheit FAC Facultative FACU Facultative upland FACW Facultative wetland GPS Global Positioning System HHEI Headwater Habitat Evaluation Index IBI Index of Biotic Integrity KV Kilovolts NRCS Natural Resources Conservation Service NWI National Wetlands Inventory NWP Nationwide Permit OAC Ohio Administrative Code OBL Obligate wetland OEPA Ohio Environmental Protection Agency OHWM Ordinary high water mark ORAM Ohio Rapid Assessment Method PAB Palustrine Aquatic Bed PEM Palustrine Emergent PML Palustrine Moss-Lichen PFO Palustrine Forested PHWH Primary Headwater Habitat PSS Palustrine Scrub/Shrub PUB Palustrine Unconsolidated Bottom PUS Palustrine Unconsolidated Shore PRB Palustrine Rock Bottom QHEI Qualitative Habitat Evaluation Index ROW Right-of-way UPL Upland U.S. United States USACE United States Army Corps of Engineers USDA United States Department of Agriculture USFWS United States Fish and Wildlife Service USGS United States Geological Survey WWH Warmwater Habitat
Wetland Delineation And Stream Assessment Report
1 Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
1.0 INTRODUCTION
American Transmission Systems, Inc. (ATSI), a FirstEnergy Company (FirstEnergy), is proposing to construct a new1.1-mile, 138kV transmission line and to expand the limits of an existing substation as part of the Crissinger-Kirby 138 kV Transmission Line Loop and Crissinger Substation Expansion (Project) in Pleasant Township, Marion County, Ohio. The Project can be located on the United States Geological Survey (USGS) Marion West, Ohio 7.5-minute series topographical quadrangles (National Geographic Society, 2013) (Figure 1). The Project will begin at the Crissinger Substation and runs generally west, terminating at structure 11731 (approximately 220 feet southeast of Marion-Green Camp Road) in Green Camp Township, Marion County, Ohio). The approximate coordinates for the western terminus of the Project are 40.5563, -83.1582, and the eastern terminus is 40.5546, -83.183. The limit of the Project investigation is defined by the survey boundary (Figures 2A-2C and Figure 3A-3C).
Land uses crossed by the Project were assigned a general classification based upon the principal land characteristics of the location as observed through aerial photography review and observations during the field surveys. General land use types in the vicinity of the proposed Project include: fallow fields, agricultural land, forested land, and parallels a maintained transmission line right-of-way (ROW). Agricultural land is the dominant land use in the vicinity of the Project.
The Project area drains into unnamed tributaries (UNTs) of Little Scioto River, which eventually flow into the Little Scioto River. Little Scioto River and its unnamed tributaries are located within the Scioto River drainage basin. Little Scioto River has an Ohio Administrative Code (OAC) Chapter 3745-1 aquatic life habitat use designation of Modified Warmwater Habitat (MWH) (State of Ohio 2018). The UNTs to Little Scioto River do not have an existing state designations and a biological assessment has been completed for these resources.
As per the Section 401 Water Quality Certification (WQC) for Nationwide Permit and Stream Eligibility Web Map website (Ohio Environmental Protection Agency (OEPA)), the Project is located within an Eligible area and impacts to streams, if required, could be authorized by the United States Army Corps of Engineers (USACE) under the Nationwide Permit Conditions.
The watershed identified in the Project area is Honey-Creek-Little Scioto River (Hydrologic Unit Code (HUC): 050600010406). According to the OEPA 2014 Ohio Integrated Water Quality Monitoring and Assessment Scioto River (Upper) Watershed Report, the Honey Creek-Little Scioto River Watershed is listed as aquatic life, recreation, and fish tissue impaired. This watershed has been severely impacted by creosote contamination from industry in the City of Marion via loading from North Rock Swale Ditch. Additional sources of impairments include channelization, agriculture, contaminated sediment, livestock, septic sewers, and combined sewer overflow (OEPA 2018).
Wetland Delineation And Stream Assessment Report
2 Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
2.0 METHODOLOGY
Prior to conducting field surveys, digital and published county Natural Resources Conservation Service (NRCS) soil surveys, U.S. Fish and Wildlife Service (USFWS) National Wetland Inventory (NWI) maps, and U.S. Geological Survey (USGS) 7.5-minute topographic maps were reviewed as an exercise to identify the occurrence and location of potential wetland areas (Figures 2A-2C). The purpose of the field survey was to assess whether wetlands and other “waters of the U.S.” are present within the Project’s survey boundary, which consisted of a 120-foot wide survey boundary centered along the purposed transmission route and identified work limits beyond the survey boundary such as access roads, work pads, and laydown yards (Figures 3A-3C).
AECOM ecologists walked the Project survey boundary, access roads, and work areas to conduct a wetland delineation and stream assessment. Initial field investigations were conducted on March 18 and 19, 2019. During the field survey, the physical boundaries of observed water features, if identified, were recorded using sub-decimeter capable Trimble Global Positioning System (GPS) units. The GPS data was imported into ArcMap GIS software, where the data was then reviewed and edited for accuracy.
2.1 WETLAND DELINEATION
The Project survey boundary was evaluated according to the procedures outlined in the USACE 1987 Wetland Delineation Manual (1987 Manual) (Environmental Laboratory, 1987) and the Regional Supplement to the Corps of Engineers Wetland Delineation Manual: Midwest Region (Version 2.0) (Regional Supplement) (USACE 2010). The Regional Supplement was released in August 2010 by the USACE to address regional wetland characteristics and improve the accuracy and efficiency of wetland delineation procedures. The 1987 Manual and Regional Supplement define wetlands as areas that have positive evidence of three environmental parameters: hydric soils, wetland hydrology, and hydrophytic vegetation. Wetland boundaries are placed where one or more of these parameters give way to upland characteristics.
Since quantitative data were not available for any of the identified wetlands, AECOM utilized the routine delineation method described in the 1987 Manual and Regional Supplement that consisted of a pedestrian site reconnaissance, including identifying the vegetation communities, soils identification, a geomorphologic assessment of hydrology, and notation of disturbance. The methodology used to examine each parameter is described in the following sections.
Land uses observed within the Project survey boundary were assigned a general classification based upon the principal land characteristics of the location as observed through aerial photography review and observations during the field surveys.
Wetland Delineation And Stream Assessment Report
3 Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
2.1.1 Soils
Soils were examined for hydric soil characteristics using a spade shovel to extract soil samples. A Munsell Soil Color Chart (Kollmorgen Corporation 2010) was used to identify the hue, value, and chroma of the matrix and mottles of the soils. Generally, mottled soils with a matrix chroma of two or less, or unmottled soils with a matrix chroma of one or less are considered to exhibit hydric soil characteristics (Environmental Laboratory 1987). In sandy soils, mottled soils with a matrix chroma of three or less, or unmottled soils with a matrix chroma of two or less are considered to be hydric soils.
2.1.2 Hydrology
The 1987 Manual requires that an area be inundated or saturated to the surface for an absolute minimum of five percent of the growing season (areas saturated between five percent and 12.5 percent of the growing season may or may not be wetlands, while areas saturated over 12.5 percent of the growing season fulfill the hydrology requirements for wetlands). The Regional Supplement states that the growing season dates are determined through onsite observations of the following indicators of biological activity in a given year: (1) above-ground growth and development of vascular plants, and/or (2) soil temperature (12-in. depth) is 41 degrees Fahrenheit (oF) or higher as an indicator of soil microbial activity. Therefore, the beginning of the growing season in a given year is indicated by whichever condition occurs earlier, and the end of the growing season by whichever persists later.
The Regional Supplement also states that if onsite data gathering is not practical, the growing season can be approximated by the number of days between the average (five years out of ten, or 50 percent probability) date of the last and first 28°F air temperature in the spring and fall, respectively. The National Weather Service WETS data obtained from the NRCS National Water and Climate Center reveals for Marion County that in an average year, this period lasts from April 16 to October 28, or about 195 days. In the Project area, five percent of the growing season equates to approximately ten days (USDA-NRCS 2019).
The soils and ground surface were examined for evidence of wetland hydrology in lieu of detailed hydrological data. This is an acceptable approach according to the 1987 Manual and Regional Supplement. Evidence indicating wetland hydrology typically includes primary indicators such as surface water, saturation, water marks, drift deposits, water-stained leaves, sediment deposits and oxidized rhizospheres on living roots; and secondary indicators such as, drainage patterns, geomorphic position, micro-topographic relief, and a positive Facultative (FAC)-neutral test (USACE 2012).
2.1.3 Vegetation
Dominant vegetation was visually assessed for each stratum (tree, sapling/shrub, herb and woody vine) and an indicator status of obligate wetland (OBL), facultative wetland (FACW), facultative (FAC), facultative upland (FACU), and/or upland (UPL) was assigned to each plant species based on the U.S. Army Corps of Engineers 2016 National Wetland Plant List: Midwest Region (Lichvar et al. 2016),
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which encompasses the area of the Project. An area is determined to have hydrophytic vegetation when, under normal circumstances, 50 percent or more of the composition of the dominant species are OBL, FACW and/or FAC species. Vegetation of an area was determined to be non-hydrophytic when more than 50 percent of the composition of the dominant species was FACU and/or UPL species. In addition to the dominance test, the FAC-Neutral test and prevalence tests are used to determine if a wetland has a predominance of hydrophytic vegetation. Recent USACE guidance indicates that to the extent possible, the hydrophytic vegetation decision should be based on the plant community that is normally present during the wet portion of the growing season in a normal rainfall year (USACE 2012).
2.1.4 Wetland Classifications
Wetlands were classified based on the naming convention found in Classification of Wetlands and Deepwater Habitats of the United States (Cowardin et al. 1979). If wetlands were identified within the survey boundary; they would typically be classified as freshwater, palustrine systems, which include non-tidal wetlands dominated by trees, shrubs, emergents, mosses, or lichens. The common palustrine wetland classification types are as follows:
• PEM – Palustrine emergent wetlands are characterized by erect, rooted, herbaceous hydrophytes, excluding mosses and lichens. This vegetation is present for most of the growing season in most years. These wetlands are usually dominated by perennial plants.
• PSS – Palustrine scrub/shrub wetlands are characterized by woody vegetation that is less than three inches diameter at breast height (DBH), and greater than 3.28 feet tall. The woody angiosperms (i.e., small trees or shrubs) in this broad leaved deciduous community have relatively wide, flat leaves that are shed annually during the cold or dry season.
• PFO – Palustrine forested wetlands are characterized by woody vegetation that is three inches or more DBH, regardless of total height. These wetlands generally include an overstory of broad-leaved and needle-leaved trees, an understory or young saplings and shrubs, and an herbaceous layer.
• PUB – Palustrine unconsolidated bottom wetlands includes all open water wetlands and deepwater habitats with at least 25 percent cover of particles smaller than stones, and a vegetative cover less than 30 percent. Palustrine open water wetlands are characterized by the
lack of large stable surfaces for plant and animal attachment.
• PAB – Palustrine aquatic bed wetlands are characterized by plants that grow principally on or below the surface of the water for most of the growing season in most years. These plants are best developed in relatively permanent water or under conditions of repeated flooding.
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• PML – Palustrine moss-lichen wetlands includes areas where mosses or lichens cover at least
30 percent of substrates other than rock and where emergents, shrubs, or trees alone or in
combination cover less than 30 percent.
• PUS – Palustrine unconsolidated shore wetlands are characterized by substrates lacking
vegetation except for pioneer plants that become established during brief periods when growing
conditions are favorable. Unconsolidated shore wetlands have less than 30% areal coverage of vegetation and less than 75 percent areal cover of stones, boulders or bedrock.
• PRB – Palustrine rock bottom wetlands includes all wetlands and deepwater habitats with
substrates having an aerial cover of stones, boulders, or bedrock 75 percent or greater and
vegetative cover of less than 30 percent. Rock bottom wetlands and deepwater habitats are characterized by substrates predominantly made up of stones, boulders, or bedrock.
For some wetlands, multiple Cowardin classifications may be present where more than one classification’s vegetation is dominant (vegetation covers 30 percent or more of the substrate). Where multiple Cowardin classifications are present, the Cowardin classification of the plants that constitute the uppermost layer of vegetation is listed.
2.1.5 Ohio Rapid Assessment Method v. 5.0
The Ohio Environmental Protection Agency (OEPA) Ohio Rapid Assessment Method for Wetlands v. 5.0 (ORAM) was developed to determine the relative ecological quality and level of disturbance of a particular wetland in order to meet requirements under Section 401 of the Clean Water Act. Wetlands are scored on the basis of hydrology, upland buffer, habitat alteration, special wetland communities, and vegetation communities. Each of these subject areas is further divided into subcategories under ORAM resulting in a score that describes the wetland using a range from 0 (low quality and high disturbance) to 100 (high quality and low disturbance). Wetlands scored from 0 to 29.9 are grouped into "Category 1", 30 to 59.9 are "Category 2" and 60 to 100 are "Category 3". Transitional zones exist between “Categories 1 and 2” from 30 to 34.9 and between “Categories 2 and 3” from 60 to 64.9. However, according to the OEPA, if the wetland score falls into the transitional range, it must be given the higher Category unless scientific data can prove it should be in a lower Category (Mack 2001).
Category 1 Wetlands Category 1 wetlands support minimal wildlife habitat, hydrological and recreational functions, and do not provide for or contain critical habitats for threatened or endangered species. In addition, Category 1 wetlands are often hydrologically isolated and have some or all of the following characteristics: low species diversity, no significant habitat or wildlife use, limited potential to achieve wetland functions, and/or a predominance of non-native species. These limited quality wetlands are considered to be a resource that has been severely degraded or has a limited potential for restoration, or is of low ecological functionality.
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Category 2 Wetlands Category 2 wetlands "...support moderate wildlife habitat, or hydrological or recreational functions," and as wetlands which are "...dominated by native species but generally without the presence of, or habitat for, rare, threatened or endangered species; and wetlands which are degraded but have a reasonable potential for reestablishing lost wetland functions." Category 2 wetlands constitute the broad middle category of "good" quality wetlands, and can be considered a functioning, diverse, healthy water resource that has ecological integrity and human value. Some Category 2 wetlands are lacking in human disturbance and considered to be naturally of moderate quality; others may have been Category 3 wetlands in the past, but have been degraded to Category 2 status.
Category 3 Wetlands Wetlands that are assigned to Category 3 have “...superior habitat, or superior hydrological or recreational functions.” They are typified by high levels of diversity, a high proportion of native species, and/or high functional values. Category 3 wetlands include wetlands which contain or provide habitat for threatened or endangered species, are high quality mature forested wetlands, vernal pools, bogs, fens, or which are scarce regionally and/or statewide. A wetland may be a Category 3 wetland because it exhibits one or all of the above characteristics. For example, a forested wetland located in the flood plain of a river may exhibit “superior” hydrologic functions (e.g., flood retention, nutrient removal), but not contain mature trees or high levels of plant species diversity.
2.2 STREAM CROSSINGS
Regulatory activities under the Clean Water Act provide authority for states to issue water quality standards and “designated uses” to all waters of the U.S. upstream to the highest reaches of the tributary streams. In addition, the Federal Water Pollution Control Act of 1972 and its 1977 and 1987 amendments require knowledge of the potential fish or biological communities that can be supported in a stream or river, including upstream headwaters. Streams were identified by the presence of a defined bed and bank, and evidence of an ordinary high water mark (OHWM). The USACE defines OHWM as “that line on the shore established by the fluctuations of water and indicated by physical characteristics such as a clear, natural line impressed on the bank, shelving, changes in the character of soil, destruction of terrestrial vegetation, the presence of litter and debris, or other appropriate means that consider the characteristics of the surrounding areas” (USACE 2005).
Stream assessments were conducted using the methods described in the OEPA’s Methods for Assessing Habitat in Flowing Waters: Using OEPA’s Qualitative Habitat Evaluation Index (Rankin 2006) and Field Evaluation Manual for Ohio’s Primary Headwater Habitat Streams, Version 3 (Ohio EPA 2012).
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2.2.1 OEPA Qualitative Habitat Evaluation Index
The qualitative habitat evaluation index (QHEI) is designed to provide a rapid determination of habitat features that correspond to those physical factors that most affect fish communities and which are generally important to other aquatic life (e.g., macroinvertebrates). The quantitative measure of habitat used to calibrate the QHEI score are Indices (or Index) of Biotic Integrity (IBI) for fish. In most instances the QHEI is sufficient to give an indication of habitat quality, and the intensive quantitative analysis used to measure the IBI is not necessary. It is the IBI, rather than the QHEI, that is directly correlated with the aquatic life use designation for a particular surface water.
The QHEI method is generally considered appropriate for waterbodies with drainage basins greater than one square mile, if natural pools are greater than 15.75 inches, or if the water feature is shown as blue-line waterways on USGS 7.5-minute topographic quadrangle maps. In order to convey general stream habitat quality to the regulated public, the OEPA has assigned narrative ratings to QHEI scores. The ranges vary slightly for headwater streams (H are those with a watershed area less than or equal to 20 mi2) versus larger streams (L are those with a watershed area greater than 20 mi2). The Narrative Rating System includes: Very Poor (<30 H and L), Poor (30 to 42 H, 30 to 44 L), Fair (43 to 54 H, 45 to 59 L), Good (55 to 69 H, 60 to 74 L) and Excellent (70+ H, 75+ L) (Rankin 2006).
2.2.2 OEPA Primary Headwater Habitat Evaluation Index
Headwater streams are typically considered to be first-order and second-order streams, meaning streams that have no upstream tributaries (or “branches”) and those that have only first-order tributaries, respectively. The stream order concept can be problematic when used to define headwater streams because stream-order designations vary depending upon the accuracy and resolution of the stream delineation. Headwater streams are generally not shown on USGS 7.5-minute topographic quadrangles and are sometimes difficult to distinguish on aerial photographs. Nevertheless, headwater streams are now recognized as useful monitoring units due to their abundance, widespread spatial scale and landscape position (Fritz et al. 2006). Impacts to headwater streams can have a cascading effect on the downstream water quality and habitat value. The headwater habitat evaluation index (HHEI) is a rapid field assessment method for physical habitat that can be used to appraise the biological potential of most Primary Headwater Habitat (PHWH) streams. The HHEI was developed using many of the same techniques as used for QHEI, but has criteria specifically designed for headwater habitats. To use HHEI, the stream must have a “defined bed and bank, with either continuous or periodically flowing water, with watershed area less than or equal to 1.0 mi2 (259ha), and a maximum depth of water pools equal to or less than 15.75 inches” (Ohio EPA 2012).
Headwater streams are scored on the basis of channel substrate composition, bankfull width, and maximum pool depth. Assessments result in a score (0 to 100) that is converted to a specific PHWH stream class. Streams that are scored from 0 to 29.9 are typically grouped into "Class 1 PHWH Streams", 30 to 69.9 are "Class 2 PHWH Streams", and 70 to 100 are "Class 3 PHWH Streams".
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Technically, a stream can score relatively high, but actually belong in a lower class, and vice-versa. According to the OEPA, if the stream score falls into a class and the scorer feels that based on site observations that score does not reflect the actual stream class, a decision-making flow chart can be used to determine appropriate PHWH stream class using the HHEI protocol (Ohio EPA 2012). Evidence of anthropogenic alterations to the natural channel will result in a “Modified” qualifier for the stream.
Class 1 PHWH Streams: Class 1 PHWH Streams are those that have “normally dry channels with little or no aquatic life present” (Ohio EPA 2012). These waterways are usually ephemeral, with water present for short periods of time due to infiltration from snowmelts or rainwater runoff.
Class 2 PHWH Streams: Class 2 PHWH Streams are equivalent to "warm-water habitat" streams. This stream class has a "moderately diverse community of warm-water adapted native fauna either present seasonally or on an annual basis" (Ohio EPA 2012). These species communities are composed of vertebrates (fish and salamanders) and/or benthic macroinvertebrates that are considered pioneering, headwater temporary, and/or temperature facultative species.
Class 3 PHWH Streams: Class 3 PHWH Streams usually have perennial water flow with cool-cold water adapted native fauna. The community of Class 3 PHWH Streams is comprised of vertebrates (either cold water adapted species of headwater fish and or obligate aquatic species of salamanders, with larval stages present), and/or a diverse community of benthic cool water adapted macroinvertebrates present in the stream continuously (on an annual basis).
2.2.3 401 Eligibility Watersheds
Under the 401 Water Quality Certification for the 2017 Nationwide Permits (NWP), OEPA has limited the use of the expedited permits for impacts to high quality streams in Ohio. OEPA has developed a map/shapefile which designates Ohio watersheds into three categories:
Ineligible Areas: If any stream proposed to be impacted is located in an ineligible area, then impacts to that stream are not eligible for coverage under the NWPs and an individual 401 WQC will be required from OEPA.
Possibly Eligible Areas: Any stream proposed to be impacted which is located in a possibly eligible area will require additional field screenings. The pH value must be collected and a QHEI or HHEI assessment must be performed on the stream. Flow charts provided in the OEPA Final Signed WQC NWP 2017 (Ohio EPA 2017) will then be used to determine if stream impacts will be eligible for coverage under the NWP or if an individual 401 WQC is required.
Eligible Areas: Any impacts to streams located in eligible areas are eligible for coverage under the NWP.
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3.0 RESULTS
AECOM delineated a total of six wetlands including four PEM, one PSS, one PFO/PSS wetland complexes. Additionally, AECOM identified a total of three streams including two intermittent streams and one perennial stream within the survey boundary. These wetlands and streams are discussed in the following sections.
3.1 WETLAND DELINEATION
3.1.1 Preliminary Soils Evaluation
Soils within each wetland were observed and documented as part of the delineation methodology. According to the USDA/NRCS Web Soil Surveys of Marion County, Ohio (USDA NRCS 2018) and the NRCS Hydric Soils Lists of Ohio, two soil map units are listed as hydric soils within the survey boundary. Additionally, four soil maps units are listed has hydric inclusions due to displaying hydric soils with a minor component of the soil map unit (USDA NRCS 2018). Table 1 provides a detailed overview of all soil series and soil map units within the Project survey boundary. Soil map units located within the Project survey boundary are shown on Figure 2A-2C.
TABLE 1
SOIL MAP UNITS AND DESCRIPTIONS WITHIN THE CRISSINGER-KIRBY 138 kV TRANSMISSION LINE LOOP AND
CRISSINGER SUBSTATION EXPANSION PROJECT SURVEY BOUNDARY
Soil Series Symbol Map Unit Description Topographic
Setting Hydric3 Hydric
Component (%)
Blount Ble1A1 Blount silt loam, end moraine, 0 to 2 percent slopes End Moraines
on Till Plains Yes* Pewamo, end moraine (6)
Blg1A1 Blount silt loam, ground moraine, 0 to 2 percent slopes End Moraines on Till Plains Yes* Pewamo, ground
moraine (9)
Glynwood GwA Glynwood silt loam, 0 to 2 percent slopes N/A2 No N/A
Gwe5B2 Glynwood clay loam, end moraine, 2 to 6 percent slopes, eroded Till plains Yes* Pewamo (6)
Martinsville MaA Martinsville loam, 0 to 2 percent slopes N/A2 No N/A
Milford Mf Milford silty clay loam, 0 to 2 percent slopes Lake Plains Yes Milford (90) Houghton,
undrained (3) Ockley OcA Ockley loam, 0 to 2 percent slopes N/A2 No N/A
Pewamo Pk Pewamo silty clay loam, 0 to 1 percent slopes Depressions on Till Plains Yes Pewamo (85)
Minster (6)
Urban UEBXA Urban land-Aeric Epiaquents-Blount complex, 0 to 3 percent slopes Till Plains Yes* Typic endoaquents,
till substratum (5) NOTES: (1) Data sources include: USDA. NRCS. 2018. Web Soil Survey. Available online at: https://websoilsurvey.sc.egov.usda.gov/App/HomePage.htm
USDA. NRCS. 2018. National Hydric Soils List by State. Available online at: http://www.nrcs.usda.gov/wps/portal/nrcs/main/soils/use/hydric/
USDA. SCS. 1989. Soil Survey of Marion County, Ohio (2) Web Soil Survey does not have an identified Topographic Setting. (3) Soils that are identified as hydric with an asterisk represent soils with hydric inclusions within the identified topographic settings.
3.1.2 National Wetland Inventory Map Review
According to NWI maps of the Marion West, Ohio quadrangles, the Project survey corridor contains one mapped NWI palustrine, emergent, persistent, seasonally flooded (PEM1C) wetland. The location of the NWI mapped wetland is shown on Figures 2A-2C.
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The PEM1C NWI mapped wetland’s boundary was field verified as not being accurate to on-site conditions. This NWI mapped wetland boundary was identified as a delineated PFO/PSS wetland complex, Wetland CK-03a and CK-03b. The upland conditions of the NWI mapped wetland area located within the survey boundary are represented in this report by the upland data point reflecting the upland conditions of the Wetland CK-03a and CK-03b.
3.1.3 Delineated Wetlands
During the delineation, AECOM identified a total of six wetlands, ranging in size from less than <0.01 acre to 0.62 acres, within the Project survey boundary. Some wetland boundaries extend beyond these areas, but only what was identified within the Project survey boundary and work areas were assessed. The six wetlands within the Project survey boundary are of three different wetland habitat types: four PEM wetlands, one PSS wetland, and one PSS/PFO wetland complex. Table 2 provides a summary of the delineated wetlands within the Project survey boundary.
The locations and approximate extent of the wetlands identified within the Project survey boundary are shown on Figures 3A-3C. Completed USACE wetland determination and ORAM forms are provided in Appendices A and B, respectively. Color photographs taken of each wetland have been provided in Appendix D.
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TABLE 2
DELINEATED WETLANDS WITHIN THE CRISSINGER-KIRBY 138 kV TRANSMISSION LINE LOOP AND CRISSINGER
SUBSTATION EXPANSION PROJECT SURVEY BOUNDARY
Wetland Name Latitude Longitude Cowardin
Classification1
NWI
Classification
ORAM
Score
ORAM
Category2
Acreage within
Survey Boundary
Wetland CK-01 40.556180 -83.159257 PEM N/A 4 Category 1 0.05 Wetland CK-02 40.556081 -83.168223 PEM N/A 8 Category 1 0.62 Wetland CK-03a 40.556125 -83.170570 PFO
PEM1C 39 Category 2 0.26
Wetland CK-03b 40.555999 -83.170658 PSS 0.06
Wetland CK-04 40.556080 -83.171487 PEM N/A 33 Modified Category 22 <0.01
Wetland CK-05 40.556029 -83.178445 PEM N/A 14 Category 1 0.12 Wetland CK-06 40.554785 -83.183108 PSS N/A 12 Category 1 0.03
Total: 6 PEM: 4; PSS 1; 1 PSS/PFO 1.15
Cowardin Classification1 : PEM = palustrine emergent; PSS = Palustrine scrub/shrub, PFO=palustrine forested ORAM Category2: The Ohio Rapid Assessment Method for Wetlands v. 5.0, User’s Manual and Scoring Forms state that if a wetland score falls into the transitional range, the wetland must be given the higher Category unless scientific data can prove it should be in a lower Category. Therefore, AECOM has assigned the identified wetland to the higher category level.
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3.1.4 Delineated Wetlands ORAM V5.0 Results
Within the Project survey boundary, one wetland, Wetland CK-04, was identified within the transitional area between Category 1 and Category 2. Therefore, AECOM has assigned this wetland as a higher category level and classified it as a Modified Category 2 with an ORAM score of 33. One wetland, Wetland CK-03a and CK-03b, was identified as Category 2 and the remaining four wetlands, Wetland CK-01, CK-02, CK-05, and CK-06, were identified as Category 1. Wetland CK-03a and CK-03b received the highest ORAM score, 39, and Wetland CK-01 received the lowest ORAM score, 4. Table 2 displays a breakdown of ORAM scores and the ORAM forms are provided in Appendix B.
Category 1 Wetlands
Four Category 1 wetlands were identified within the Project survey boundary. The lowest scoring Category 1 wetland was Wetland CK-01, with a score of 4 and the highest scoring Category 1 wetland was Wetland CK-05, with a score of 14. The wetlands exhibited very narrow or narrow upland buffers and high intensive surrounding land use (e.g., cropping). The wetlands also exhibited poor plant community development with a moderate to extensive percentage of invasive species, and characteristically had habitat and hydrology in the early stages of recovering from previous manipulation due to mowing, clear cutting, selective cutting and other disturbances.
Category 2 Wetlands
Category 2 wetlands delineated within the Project boundary consisted of one modified Category 2 wetland, Wetland CK-04, with a score of 33, and a Category 2 wetland, Wetland CK-03a and CK-03b, with a score of 39. These wetlands exhibited medium upland buffers (forested land) and very low intensive surrounding land use (e.g. fallow fields). The wetlands also exhibited poor to fair plant community development with a moderate percentage of invasive species and had recovered habitat and hydrology from previous manipulation due to mowing and other likely disturbances.
Category 3 Wetlands
No Category 3 wetlands were identified during the field survey within the Project survey boundary.
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3.2 STREAM CROSSINGS
AECOM identified three streams, totaling 1,237 linear feet, within the Project survey boundary, as listed in Table 3. The streams are comprised of two intermittent streams and one perennial stream. The locations of the streams identified within the survey boundary are shown on Figures 3A-3C.
HHEI evaluations were conducted on all three streams within the Project survey boundary. No QHEI evaluations were completed. AECOM evaluations were conducted at or near the proposed transmission line crossing for each stream. These streams were identified using USGS topographic maps, aerial photography, and field reconnaissance.
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TABLE 3
DELINEATED STREAMS WITHIN THE CRISSINGER-KIRBY 138 kV TRANSMISSION LINE LOOP AND CRISSINGER SUBSTATION
EXPANSION PROJECT SURVEY BOUNDARY
Report Name Latitude Longitude Waterbody Flow
Regime
Form
Used1 Score
Class or
Narrative
Description2
Bankfull
Width
(feet)
Maximum
Pool Depth
(inches)
OEPA 401
WQC
Eligibility
for
Nationwide
Permits2
Linear Feet
Within
Survey
Boundary
Stream CK-01 40.5558948 -83.1653146
Unnamed Tributary (UNT) to Little Scioto
River
Intermittent HHEI 51 Modified Class 2 5 3 Eligible 474
Stream CK-02 40.5560517 -83.1679880 UNT to Little Scioto River Intermittent HHEI 55 Modified
Class 2 4 6 Eligible 494
Stream CK-03 40.5560243 -83.1785388 UNT to Little Scioto River Perennial HHEI 55 Modified
Class 2 8 18 Eligible 269
Total: 3 1,237
1. QHEI = Qualitative Habitat Evaluation Index, HHEI = Headwater Habitat Evaluation Index, 2. Class or Narrative Description provides the designated beneficial uses for assessed resources identified within the Ohio Administrative Code Chapter 3745-1 Water Quality Standards. In absence of a listed designation for a resource, AECOM included the Category assessment identify by the OEPA’s Qualitative Habitat Evaluation Index (Rankin 2006) or Field Evaluation Manual for Ohio’s Primary Headwater Habitat Streams, Version 3. 3. As defined by OEPA Division of Surface Water Stream Eligibility Map. Available online at: http://oepa.maps.arcgis.com/apps/webappviewer/index.html?id=e6b46d29a38f46229c1eb47deefe49b6
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3.2.1 Qualitative Habitat Evaluation Index
No streams were identified as having drainage area greater than one square mile or contained natural pools greater than 40 cm. Therefore, no streams were assessed utilizing the QHEI methodology.
3.2.2 Primary Headwater Habitat Evaluation Index
Three headwater streams, totaling 1,237 linear feet, were identified within the Project survey boundary. All three streams surveyed were identified as Modified Class 2 streams. Completed HHEI forms for each stream are provided in Appendix C. Photographs of all streams identified during the field survey are provided in Appendix D.
Modified Class 1 Headwater Streams – No Modified Class 1 streams were identified within the Project survey boundary.
Modified Class 2 Headwater Stream – All three streams surveyed during field investigations were identified as Modified Class 2 headwater streams, totaling 1,237 linear feet. One stream had a score of 51 and the remaining two streams scores received a score of 55. Two streams were identified as intermittent streams and one, with a score of 55, was identified as a perennial stream. The substrates primarily consisted of silt with lesser amounts of gravel and sand. The streams showed evidence of agricultural activities (e.g., tilling) that resulted in the stream receiving a Modified Class 2 designation. The maximum pool depths for the intermittent streams were 3 inches and 6 inches, and average bankfull widths were 5 feet and 4 feet. The maximum pool depth for the perennial stream was 18 inches and the average bankfull width was 8 feet.
Modified Class 3 Headwater Stream - No Modified Class 3 streams were identified within the Project survey boundary.
3.3 PONDS
No ponds were surveyed within the Project’s survey boundary.
4.0 SUMMARY
The ecological survey of the Project survey boundary identified a total of six wetlands and three streams. The six wetlands within the Project’s survey boundary were classified as four PEM, one PSS, and one PSS/PFO wetland complexes. Two of the wetlands, CK-03a/CK-03b and CK-03, were identified as ORAM Category 2 wetlands. All other delineated wetlands were assessed as ORAM Category 1.
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The three streams identified within the Project survey boundary including two intermittent streams and one perennial stream. All three streams were assessed using the HHEI methodology as Modified Class 2 streams as these features did not display a natural channel and the drainage areas for these resources were less than one mi2.
AECOM has preliminarily determined that all assessed streams and wetlands within the Project survey boundary appear to be jurisdictional (i.e., waters of the U.S.), as they all appear to be tributaries or wetlands that flow into or combine with other streams (waters of the U.S). The locations of the streams and wetlands identified within the survey boundary are shown on Figures 3A-3C.
The information contained in this wetland delineation report is for a study boundary that may be much larger than the actual Project limits-of-disturbance; therefore, lengths and acreages listed in this report may not constitute the actual impacts of the Project defined in subsequent permit applications. If necessary, a separate report that identifies the actual Project impacts will be provided with agency submittals.
The field survey results presented herein apply to the existing and reasonably foreseeable site conditions at the time of our assessment. They cannot apply to site changes of which AECOM is unaware and has not had the opportunity to review. Changes in the condition of a property may occur with time due to natural processes or human impacts at the Project site or on adjacent properties. Changes in applicable standards may also occur as a result of legislation or the expansion of knowledge over time. Accordingly, the findings of this report may be invalidated, wholly or in part, by changes beyond the control of AECOM.
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5.0 REFERENCES
Cowardin, L.M., V. Carter, F.C. Golet and E.T. LaRoe. 1979. Classification of Wetlands and Deepwater Habitats of the United States. Office of Biological Services, U.S. Fish and Wildlife Service, Washington, D.C.
Environmental Laboratory. 1987. U.S. Corps of Engineers Wetlands Delineation Manual. Technical Report Y-87-1, U.S. Army Engineer Waterways Experiment Station: Vicksburg, Mississippi.
Fritz, K.M., B.R. Johnson, and D.M. Walters. 2006. Field Operations Manual for Assessing the Hydrologic Permanence and Ecological Condition of Headwater Streams. EPA/600/ R-06/126. U.S. Environmental Protection Agency, Office of Research and Development, Washington DC.
Kollmorgen Corporation. 2010. Munsell Soil Color Charts. Baltimore, Maryland.
Lichvar, R.W., D.L. Banks, W.N. Kirchner, and N.C. Melvin. 2016. The National Wetland Plant List: 2016 wetland ratings. Phytoneuron 2016-30: 1-17. Published 28 April 2016. ISSN 2153 733X
Mack, John J. 2001. Ohio Rapid Assessment Method for Wetlands v. 5.0, User’s Manual and Scoring Forms. Ohio EPA Technical Report WET/2001-1. Ohio Environmental Protection Agency, Division of Surface Water, 401/Wetland Ecology Unit, Columbus, Ohio.
National Geographic Society. 2013. Seamless Layer 2013 (Topo Source: Seamless Digital Raster Graphic-N.P.S. Natural Physical Map & U.S.G.S. Topographic Map i-cubed USGS Quad: Marion West, Ohio).
Ohio EPA. 2012. Field Evaluation Manual for Ohio’s Primary Headwater Habitat Streams. Version 3.0. Ohio EPA Division of Surface Water, Columbus, Ohio.
Ohio EPA. 2017. All Counties, Cities, and Townships in Ohio. Grant of Clean Water Act Section 401 Water Quality Certification. Authorization of discharge of dredge or fill material to various waters of the State for the following Nationwide Permits as published in January 6, 2017, Federal Register (Volume 82, Number 4) O EPA ID Number 165184 Access at: https://www.epa.ohio.gov/Portals/35/401/Final%20Signed%20401%20WQC%20NWP%202017.pdfs on 03/25/2019.
Ohio EPA. 2018. Integrated Water Quality Monitoring and Assessment Report. Accessed at https://www.epa.ohio.gov/dsw/tmdl/OhioIntegratedReport#123145148-2018 on 03/25/2019.
Wetland Delineation And Stream Assessment Report
18 Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
Rankin, Edward T. 2006. Methods for Assessing Habitat in Flowing Waters: Using the Qualitative Habitat Evaluation Index (QHEI). Ohio EPA Ecological Assessment Section, Division of Surface Water, Columbus, Ohio.
State of Ohio. 2018. Ohio Administrative Code, Chapter 3745-1: Water Quality Standards. Ohio Environmental Protection Agency, Division of Surface Water, Columbus, Ohio. Accessed at https://www.epa.ohio.gov/dsw/rules/3745_1#use%20designations on 03/25/2019.
U.S. Army Corps of Engineers (USACE). 2005. Regulatory Guidance Letter No. 05-05: Guidance on Ordinary High Water Mark Identification.
U.S. Army Corps of Engineers (USACE). 2010. Regional Supplement to the Corps of
Engineers Wetland Delineation Manual: Midwest Region (Version 2.0), ed. J. S. Wakeley, R. W. Lichvar, C. V. Noble, and J.R. Berkowitz. ERDC/EL TR-12-1. Vicksburg, MS: U.S. Army Engineer Research and Development Center.
U.S. Department of Agriculture (USDA), Soil Conservation Service (SCS). 1989. Soil Survey
of Marion County, Ohio. U.S. Department of Agriculture (USDA), Natural Resources Conservation Service (NRCS).
2017. Web Soil Survey, Marion County, Ohio. Available online at: https://websoilsurvey.sc.egov.usda.gov/App/HomePage.htm
U.S. Department of Agriculture (USDA), Natural Resources Conservation Service (NRCS).
2015. National Hydric Soils List. http://www.nrcs.usda.gov/wps/portal/nrcs/main/soils/use/hydric/. Accessed 03/25/2019.
U.S. Department of Agriculture (USDA), Natural Resources Conservation Service (NRCS).
2017. National Weather Service- Wetland Climate Evaluation Database (WETS Table). http://www.wcc.nrcs.usda.gov/climate/wetlands.html. Accessed 03/25/2019.
U.S. Department of Agriculture (USDA), Natural Resources Conservation Service (NRCS).
2019. Web Soil Survey (GIS Shapefile). http://websoilsurvey.sc.egov.usda.gov/App/HomePage.htm. Accessed 03/25/2019.
United States Fish and Wildlife Service (USFWS). 2018. National Wetlands Inventory website.
United States Department of the Interior, Fish and Wildlife Service, Washington, District of Columbia. Accessed at http://www.fws.gov/wetlands on 03/25/2019.
"Marion County40.5546-83.183
40.5563-83.1582
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FIGURE 1OVERVIEW MAP
MarionCounty
IN
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WV
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Proposed Crissinger-Kirby 138kV
Project 120-Foot Survey Boundary
Survey Boundary for Access Roadsand Work Areas
National Wetland Inventory (NWI)
MUSYMBle1A1
Blg1A1
GwA
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Substation Expansion Project FIGURE 2 A
SOIL MAP UNIT AND NATIONALWETLAND INVENTORY MAP
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Proposed Crissinger-Kirby 138kV
Project 120-Foot Survey Boundary
Survey Boundary for Access Roadsand Work Areas
National Wetland Inventory (NWI)
MUSYMBle1A1
Blg1A1
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MaA
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Crissinger-Kirby 138kV Transmission Line Loop and Crissinger
Substation Expansion Project FIGURE 2 B
SOIL MAP UNIT AND NATIONALWETLAND INVENTORY MAP
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Proposed Crissinger-Kirby 138kV
Project 120-Foot Survey Boundary
Survey Boundary for Access Roadsand Work Areas
National Wetland Inventory (NWI)
MUSYMBle1A1
Blg1A1
GwA
Gwe5B2
MaA
Mf
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" Existing SubstationProposed Crissinger-Kirby 138kVProject 120-Foot Survey BoundarySurvey Boundary for AccessRoads and Work AreasAssumed 50ft Right-of-Way
Proposed Access RoadIntermittentPerennial
Delineated Wetland HabitatType
PEM
PSSPFO
#* Upland Data Point
#* Wetland Data Point
Crissinger-Kirby 138kV Transmission Line Loop and Crissinger
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LEGEND
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" Existing SubstationProposed Crissinger-Kirby 138kVProject 120-Foot Survey BoundarySurvey Boundary for AccessRoads and Work AreasAssumed 50ft Right-of-Way
Proposed Access RoadIntermittentPerennial
Delineated Wetland HabitatType
PEM
PSSPFO
#* Upland Data Point
#* Wetland Data Point
Crissinger-Kirby 138kV Transmission Line Loop and Crissinger
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LEGEND
") Proposed Structure
" Existing SubstationProposed Crissinger-Kirby 138kVProject 120-Foot Survey BoundarySurvey Boundary for AccessRoads and Work AreasAssumed 50ft Right-of-Way
Proposed Access RoadIntermittentPerennial
Delineated Wetland HabitatType
PEM
PSSPFO
#* Upland Data Point
#* Wetland Data Point
Crissinger-Kirby 138kV Transmission Line Loop and Crissinger
Substation Expansion Project FIGURE 3 C
WETLAND DELINEATION ANDSTREAM ASSESSMENT MAP
Wetland Delineation And Stream Assessment Report
Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
APPENDIX A
U.S. ARMY CORPS OF ENGINEERS WETLAND AND UPLAND FORMS
WETLAND DETERMINATION DATA FORM - Midwest Region
Wetland CK-01
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
0
0
0
0
0
25
25
10
0
0
0
0
0
0
0
0
Yes No
20.0%
0.0%
20.0%
0.0%
100.0%0
0.0% 0
0.0%
0.0% 60 60
0.0% 0 0
0.0% 0 0
0 0
0 0 0
0.0%
60 6041.7% OBL
1.00041.7% OBL
16.7% OBL
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
60
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: None )
(Plot size: None )
(Plot size: 5' radius )
(Plot size: None )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Swale
40.556182
American Transmission Systems, Inc.
Marion
OH
R15ET6S
concave
NAD 83
N/A
-83.159427
UEBXA; Urban land-Aeric Epiaquents-Blount complex, 0 to 3 percent slopes
This PEM swale originates at a roadside ditch and drains east toward the existing substation. Wetland is being influenced by surface runoff, and drains
to a culvert beside the substation. Vegetation has been mowed within the swale. The wetland boundary follows edge of swale.
Typha angustifolia
Eleocharis palustris
Carex lurida
Vegetation has been recently mowed.
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
Wetland CK-01
1
0
0
SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-16 10YR 3/2 80 7.5YR 5/6 20 C M Silty Clay Loam
Source of hydrology is surface runoff.
WETLAND DETERMINATION DATA FORM - Midwest Region
UPL CK-01
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
0
0
0
0
0
100
0
0
0
0
0
0
0
0
0
0
Yes No
00.0%
0.0%
10.0%
0.0%
0.0%0
0.0%
0.0%
0.0% 0 0
0.0% 0 0
0.0% 0 0
0 0
0 100 500
0.0%
100 500100.0% UPL
5.0000.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
100
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: )
(Plot size: )
(Plot size: 5' radius )
(Plot size: )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Flat
40.556011
American Transmission Systems, Inc.
Marion
OH
R15ET6S
convex
NAD 83
N/A
-83.160228
Ble1A1; Blount silt loam, end moraine, 0 to 2 percent slopes
Upland data point for Wetland CK-01. Surrounding land use is agriculture.
Glycine max
Vegetation is mowed. Soybean remnants in field from last growing season.
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
UPL CK-01SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-16
16-18
10YR
10YR
4/2
6/1
100
75 10YR 5/8 25 C M Silty Clay Loam
Silt Loam
No source of hydrology.
WETLAND DETERMINATION DATA FORM - Midwest Region
Wetland CK-02
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
0
0
0
0
0
25
15
15
0
0
0
0
0
0
0
0
Yes No
20.0%
0.0%
30.0%
0.0%
66.7%0
0.0%
0.0%
0.0% 0 0
0.0% 25 50
0.0% 15 45
0 0
0 15 75
0.0%
55 17045.5% FACW
3.09127.3% FAC
27.3% UPL
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
55
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: )
(Plot size: )
(Plot size: 5' radius )
(Plot size: )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Swale
40.556043
American Transmission Systems, Inc.
Marion
OH
R15ET6S
concave
NAD 83
N/A
-83.167521
Pk; Pewamo silty clay loam, 0 to 1 percent slopes
This PEM swale begins outside of the study area where an intermittent stream loses its channel and flows across the suface of an agricultural field.
Water follows a slight depression until it becomes a watercourse outside of the study area again. The wetland boundary follows edge of depression.
Phalaris arundinacea
Setaria pumila
Glycine max
Vegetation has been recently mowed and wetalnd occurs in agricultural field that is regularly tilled.
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
Wetland CK-02
1
0
0
SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-18 10YR 2/1 100 Silty Clay Loam
Source of hydrology is surface runoff and stream flow.
WETLAND DETERMINATION DATA FORM - Midwest Region
UPL CK-02
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
0
0
0
0
0
100
0
0
0
0
0
0
0
0
0
0
Yes No
00.0%
0.0%
10.0%
0.0%
0.0%0
0.0%
0.0%
0.0% 0 0
0.0% 0 0
0.0% 0 0
0 0
0 100 500
0.0%
100 500100.0% UPL
5.0000.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
100
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: )
(Plot size: )
(Plot size: 5' radius )
(Plot size: )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Flat
40.556026
American Transmission Systems, Inc.
Marion
OH
R15ET6S
convex
NAD 83
N/A
-83.167352
Pk; Pewamo silty clay loam, 0 to 1 percent slopes
Upland data point for Wetland CK-02. Surrounding land use is agriculture.
Glycine max
Vegetation is mowed. Soybean remnants in field from last growing season.
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
UPL CK-02SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-16
16-18
10YR
10YR
4/2
4/2
100
80 10YR 5/8 20 C M Silty Clay Loam
Silt Loam
No source of hydrology.
WETLAND DETERMINATION DATA FORM - Midwest Region
Wetland CK-03a
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
20
5
5
0
0
20
10
0
0
0
30
25
10
0
0
0
0
0
0
0
0
Yes No
366.7% FAC
16.7% FACU
516.7% FACU
0.0%
60.0%30
0.0% 0
66.7% FACU
33.3% FACU 25 25
0.0% 30 60
0.0% 30 90
40 160
30 0 0
0.0%
125 33546.2% FACW
2.68038.5% OBL
15.4% FAC
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
65
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: 30' radius )
(Plot size: )
(Plot size: 5' radius )
(Plot size: 15' radius )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Flat
40.556035
American Transmission Systems, Inc.
Marion
OH
R15ET6S
concave
NAD 83
PEM1C
-83.170887
Gwe5B2; Glynwood clay loam, end moraine, 2 to 6 percent slopes, eroded
This PFO section of a PSS/PFO wetland complex is located in a depression adjacent to an existing transmission line right-of-way. The wetland is
influenced by a high water table and surface runoff. The wetland boundary follows edge of depression.
Carya ovata
Quercus alba
Acer rubrum
Ailanthus altissima
Lonicera morrowii
Phalaris arundinacea
Carex lurida
Toxicodendron radicans
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
Wetland CK-03a
4
4
SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-16 10YR 5/2 80 10YR 5/8 20 C M Silty Clay Loam
Source of hydrology is high water table.
WETLAND DETERMINATION DATA FORM - Midwest Region
Wetland CK-03b
19-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
30
10
10
15
0
35
15
10
0
0
0
0
0
0
0
0
Yes No
20.0%
0.0%
40.0%
0.0%
50.0%0
0.0% 0
46.2% FACU
15.4% FACU 15 15
15.4% FACW 45 90
23.1% FACU 10 30
55 220
65 0 0
0.0%
125 35558.3% FACW
2.84025.0% OBL
16.7% FAC
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
60
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: None )
(Plot size: None )
(Plot size: 5' radius )
(Plot size: 15' radius )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Flat
40.555993
American Transmission Systems, Inc.
Marion
OH
R15ET6S
concave
NAD 83
PEM1C
-83.170885
Gwe5B2; Glynwood clay loam, end moraine, 2 to 6 percent slopes, eroded
This PSS section of a PSS/PFO wetland complex is located in a depression adjacent to an existing transmission line right-of-way, where the right-of-way
has been cleared of vegetation in the past. The wetland is influenced by a high water table and surface runoff. The wetland boundary follows edge of
Ailanthus altissima
Lonicera morrowii
Cornus amomum
Rosa multiflora
Phalaris arundinacea
Carex lurida
Toxicodendron radicans
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
Wetland CK-03b
4
4
SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-16 10YR 5/2 80 10YR 5/8 20 C M Silty Clay Loam
Source of hydrology is high water table.
WETLAND DETERMINATION DATA FORM - Midwest Region
Wetland CK-04
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
2
2
0
0
0
20
0
0
0
0
0
0
0
0
0
0
Yes No
10.0%
0.0%
30.0%
0.0%
33.3%0
0.0%
50.0% FACU
50.0% FACU 0 0
0.0% 20 40
0.0% 0 0
4 16
4 0 0
0.0%
24 56100.0% FACW
2.3330.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
20
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: None )
(Plot size: None )
(Plot size: 5' radius )
(Plot size: 15' radius )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Flat
40.556073
American Transmission Systems, Inc.
Marion
OH
R15ET6S
concave
NAD 83
PEM1C
-83.171489
Ble1A1; Blount silt loam, end moraine, 0 to 2 percent slopes
This PEM wetland is a small, wet depression that is surrounded by upland forest. Wetland is isolated and has a high water table. The wetland boundary
follows edge of depression.
Lonicera morrowii
Rosa multiflora
Phalaris arundinacea
Sparse vegetation in concave surface.
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
Wetland CK-04
5
5
SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-14
14-16
2.5Y
2.5Y
3/2
5/2
90
80
10YR
10YR 5/8
5/6 10
20 C
C M
M Silty Clay
Silty Clay Loam
Source of hydrology is high water table.
WETLAND DETERMINATION DATA FORM - Midwest Region
UPL CK-04 & CK-03a/03b
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
25
20
10
0
0
25
25
20
5
0
0
0
0
0
0
0
Yes No
00.0%
0.0%
50.0%
0.0%
0.0%0
0.0% 0
45.5% FACU
36.4% FACU 0 0
18.2% FACU 0 0
0.0% 0 0
125 500
55 5 25
0.0%
130 52533.3% FACU
4.03833.3% FACU
26.7% FACU
6.7% UPL
0.0%
0.0%
0.0%
0.0%
0.0%
75
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: None )
(Plot size: None )
(Plot size: 5' radius )
(Plot size: 15' radius )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Flat
40.555846
American Transmission Systems, Inc.
Marion
OH
R15ET6S
convex
NAD 83
N/A
-83.170921
Gwe5B2; Glynwood clay loam, end moraine, 2 to 6 percent slopes, eroded
Upland data point for Wetlands CK-04, CK-03a, and CK-03b. Surrounding land use is forest and transmission line right-of-way.
Rosa multiflora
Lonicera morrowii
Rubus allegheniensis
Solidago canadensis
Lolium perenne
Dactylis glomerata
Daucus carota
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
UPL CK-04 & CK-03a/03SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-4
4-16
10YR
10YR
3/2
5/4
100
100 Silty Clay Loam
Silt Loam
No source of hydrology.
WETLAND DETERMINATION DATA FORM - Midwest Region
Wetland CK-05
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
0
0
0
0
0
100
0
0
0
0
0
0
0
0
0
0
Yes No
10.0%
0.0%
10.0%
0.0%
100.0%0
0.0%
0.0%
0.0% 0 0
0.0% 100 200
0.0% 0 0
0 0
0 0 0
0.0%
100 200100.0% FACW
2.0000.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
100
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: None )
(Plot size: None )
(Plot size: 5' radius )
(Plot size: None )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Floodplain
40.556025
American Transmission Systems, Inc.
Marion
OH
R15ET6S
concave
NAD 83
N/A
-83.178451
Pk; Pewamo silty clay loam, 0 to 1 percent slopes
This PEM wetland occurs on the floodplain of a perennial watercourse. The wetland is within a slight depression that is seasonaly saturated. The
wetland boundary follows edge of depression and hydrophytic vegetation.
Phalaris arundinacea
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
Wetland CK-05
0
0
SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-16 10YR 3/2 95 10YR 4/6 5 C M Silty Clay Loam
Source of hydrology is seasonal flooding.
WETLAND DETERMINATION DATA FORM - Midwest Region
UPL CK-05
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
0
0
0
0
0
75
25
25
25
0
0
0
0
0
0
0
Yes No
00.0%
0.0%
40.0%
0.0%
0.0%0
0.0% 0
0.0%
0.0% 0 0
0.0% 0 0
0.0% 0 0
125 500
0 25 125
0.0%
150 62550.0% FACU
4.16716.7% UPL
16.7% FACU
16.7% FACU
0.0%
0.0%
0.0%
0.0%
0.0%
150
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: None )
(Plot size: None )
(Plot size: 5' radius )
(Plot size: None )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
40.556036
American Transmission Systems, Inc.
Marion
OH
R15ET6S
convex
NAD 83
N/A
-83.178723
Pk; Pewamo silty clay loam, 0 to 1 percent slopes
Upland data point for Wetland CK-05. Surrounding land use is fallow field.
Dactylis glomerata
Daucus carota
Lolium perenne
Solidago canadensis
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
UPL CK-05SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-16
16-18
10YR
10YR
3/1
6/8
100
100 Sandy Loam
Silt Loam
No source of hydrology.
WETLAND DETERMINATION DATA FORM - Midwest Region
Wetland CK-06
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
60
5
5
0
0
40
0
0
0
0
0
0
0
0
0
0
Yes No
20.0%
0.0%
20.0%
0.0%
100.0%0
0.0% 0
85.7% FACW
7.1% FAC 0 0
7.1% FAC 100 200
0.0% 10 30
0 0
70 0 0
0.0%
110 230100.0% FACW
2.0910.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
0.0%
40
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: None )
(Plot size: None )
(Plot size: 5' radius )
(Plot size: 15' radius )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Swale
40.554742
American Transmission Systems, Inc.
Marion
OH
R15ET6S
concave
NAD 83
N/A
-83.183196
MaA; Martinsville loam, 0 to 2 percent slopes
This PSS wetland is located within a swale along the toe-of-slope of a former railroad bed. The depression is collecting some surface runoff from the
surrounding area. The wetland boundary follows toe-of-slope and edge of depression.
Cornus amomum
Acer negundo
Ulmus rubra
Phalaris arundinacea
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
Wetland CK-06
5
5
SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType% 1
0-16 2.5Y 3/2 90 10YR 5/6 10 C M Silty Clay Loam
Source of hydrology is surface runoff.
WETLAND DETERMINATION DATA FORM - Midwest Region
UPL CK-06
18-Mar-19
1.0% 0.6
Yes No
Yes No
Yes No
Yes No
Yes NoYes No
0
0
0
0
0
10
0
0
0
0
75
25
10
10
0
0
0
0
0
0
0
Yes No
00.0%
0.0%
30.0%
0.0%
0.0%0
0.0% 0
100.0% FACU
0.0% 0 0
0.0% 0 0
0.0% 0 0
120 480
10 10 50
0.0%
130 53062.5% FACU
4.07720.8% FACU
8.3% UPL
8.3% FACU
0.0%
0.0%
0.0%
0.0%
0.0%
120
0.0%
0.0%
0
0 0.0%
Midwest Region - Version 2.0
Woody Vine Stratum
= Total Cover
IndicatorStatus
= Total Cover
= Total Cover
HydrophyticVegetationPresent?
US Army Corps of Engineers
VEGETATION -
Dominance Test worksheet:
City/County:
Total Number of DominantSpecies Across All Strata:
Prevalence Index worksheet:
State:
, or Hydrology
, or Hydrology
Prevalence Index = B/A =
(A/B)
Project/Site:
Wetland Hydrology Present?
Applicant/Owner:
1.
2.
3.
4.
5.
Sampling Date:
Lat.:
Hydric Soil Present?
Herb Stratum
Long.:
Sampling Point:
Investigator(s):
= Total Cover
°
Landform (hillslope, terrace, etc.):
T
Number of Dominant SpeciesThat are OBL, FACW, or FAC:
1.
2.
Hydrophytic Vegetation Indicators:
Remarks: (Include photo numbers here or on a separate sheet.)
(If no, explain in Remarks.)
(A)
Are Vegetation
Percent of dominant SpeciesThat Are OBL, FACW, or FAC:
Total % Cover of: Multiply by:
(B)
Are "Normal Circumstances" present?
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
Soil Map Unit Name:
Datum:
Are climatic/hydrologic conditions on the site typical for this time of year?
Hydrophytic Vegetation Present?
NWI classification:
Remarks:
Tree Stratum
Sapling/Shrub Stratum
*Indicator suffix = National status or professional decision assigned because Regional status not defined by FWS.
R
Absolute% Cover
Are Vegetation
Section, Township, Range: S
significantly disturbed?
Is the Sampled Areawithin a Wetland?
Local relief (concave, convex, none):
naturally problematic?
Slope:
(If needed, explain any answers in Remarks.)
, Soil
SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc.
/
, Soil
DominantSpecies?Rel.Strat.
Cover
1.
2.
3.
4.
5.
Use scientific names of plants.
(Plot size: None )
(Plot size: None )
(Plot size: 5' radius )
(Plot size: 15' radius )
Crissinger-Kirby 138 kV
M.R.Kline, R.C.Massa
Bench
40.554693
American Transmission Systems, Inc.
Marion
OH
R15ET6S
convex
NAD 83
N/A
-83.183055
Gwe5B2; Glynwood clay loam, end moraine, 2 to 6 percent slopes, eroded
Upland data point for Wetland CK-06. Surrounding land use is fallow field.
Rubus allegheniensis
Dactylis glomerata
Lolium perenne
Daucus carota
Cirsium arvense
OBL species
FACW species
FAC species
FACU species
UPL species
Column Totals:
x 1 =
x 2 =
x 3 =
x 4 =
x 5 =
(A) (B)
1 Indicators of hydric soil and wetland hydrology mustbe present, unless disturbed or problematic.
3 - Prevalence Index is ≤3.0
Problematic Hydrophytic Vegetation 1 (Explain)
4 - Morphological Adaptations 1 (Provide supporting data in Remarks or on a separate sheet)
2 - Dominance Test is > 50%
1
1
1
1
1 - Rapid Test for Hydrophytic Vegetation
UPL CK-06SOIL Sampling Point:
Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.)
Type: C=Concentration, D=Depletion, RM=Reduced Matrix, CS=Covered or Coated Sand Grains. Location: PL=Pore Lining. M=Matrix.
Yes No
Yes No
Yes No
Yes NoYes No
Hydric Soil Indicators: Indicators for Problematic Hydric Soils :
Restrictive Layer (if observed):
Hydric Soil Present?
Indicators of hydrophytic vegetation and wetland hydrology must be present,
unless disturbed or problematic.
Histosol (A1)
Histic Epipedon (A2)
Black Histic (A3)
Hydrogen Sulfide (A4)
Depleted Below Dark Surface (A11)
Thick Dark Surface (A12)
Sandy Muck Mineral (S1)
Sandy Gleyed Matrix (S4)
Sandy Redox (S5)
Stripped Matrix (S6)
Loamy Mucky Mineral (F1)
Loamy Gleyed Matrix (F2)
Depleted Matrix (F3)
Redox Dark Surface (F6)
Depleted Dark Surface (F7)
Type:
Depth (inches):
HYDROLOGY
Remarks:
Surface Water (A1)
High Water Table (A2)
Saturation (A3)
Water Marks (B1)
Sediment Deposits (B2)
Drift Deposits (B3)
Algal Mat or Crust (B4)
Water-Stained Leaves (B9)
Dry Season Water Table (C2)True Aquatic Plants (B14)
Hydrogen Sulfide Odor (C1)
Oxidized Rhizospheres on Living Roots (C3)
Presence of Reduced Iron (C4)
Recent Iron Reduction in Tilled Soils (C6)
Other (Explain in Remarks)
Drainage Patterns (B10)Aquatic Fauna (B13)
Saturation Visible on Aerial Imagery (C9)
Crayfish Burrows (C8)
FAC-Neutral Test (D5)
Primary Indicators (minimum of one is required; check all that apply)
Wetland Hydrology Indicators:
Field Observations:
Surface Water Present?
Water Table Present?
Saturation Present?(includes capillary fringe)
Depth (inches):
Depth (inches):
Depth (inches):Wetland Hydrology Present?
Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available:
Remarks:
Secondary Indicators (minimum of two required)
Iron Deposits (B5)
5 cm Mucky Peat or Peat (S3)
Surface Soil Cracks (B6)
Geomorphic Position (D2)
Stratified Layers (A5)
2 cm Muck (A10)
Redox Depressions (F8)
1
3
3
Inundation Visible on Aerial Imagery (B7)
Sparsely Vegetated Concave Surface (B8)
Thin Muck Surface (C7)
Gauge or Well Data (D9)
Stunted or Stressed Plants (D1)
2
Coast Prairie Redox (A16)
Other (Explain in Remarks)
Iron Manganese Masses (F12)
Dark Surface (S7)
Very Shallow Dark Surface (TF12)
Depth(inches) Color (moist) Color (moist)
Matrix Redox Features
% Loc² Texture RemarksType%50% rock
1
0-16 10YR 3/1 100 Silt Loam
Sample pit on what seems to be an old railroad bed.
No source of hydrology.
Wetland Delineation And Stream Assessment Report
Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
APPENDIX B
OEPA WETLAND ORAM FORMS
Wetland CK-01Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
0 0 Metric 1. Wetland Area (size). Wetland CK-01
max 6 pts subtotal Select one size class and assign score.
>50 acres (>20.2ha) (6 pts) 0.01 acres25 to <50 acres (10.1 to <20.2ha) (5 pts)10 to <25 acres (4 to <10.1ha) (4 pts)3 to <10 acres (1.2 to <4ha) (3 pts)0.3 to <3 acres (0.12 to <1.2ha) (2pts)0.1 to <0.3 acres (0.04 to <0.12ha) (1 pt)
x <0.1 acres (0.04ha) (0 pts)
1 1 Metric 2. Upland buffers and surrounding land use.
max 14 pts. subtotal 2a. Calculate average buffer width. Select only one and assign score. Do not double check.
WIDE. Buffers average 50m (164ft) or more around wetland perimeter (7)MEDIUM. Buffers average 25m to <50m (82 to <164ft) around wetland perimeter (4)NARROW. Buffers average 10m to <25m (32ft to <82ft) around wetland perimeter (1)
x VERY NARROW. Buffers average <10m (<32ft) around wetland perimeter (0)
2b. Intensity of surrounding land use. Select one or double check and average.
VERY LOW. 2nd growth or older forest, prairie, savannah, wildlife area, etc. (7)
LOW. Old field (>10 years), shrubland, young second growth forest. (5)
MODERATELY HIGH. Residential, fenced pasture, park, conservation tillage, new fallow field. (3)
x HIGH. Urban, industrial, open pasture, row cropping, mining, construction. (1)
4.0 5.0 Metric 3. Hydrology.
max 30 pts. subtotal 3a. Sources of Water. Score all that apply. 3b. Connectivity. Score all that apply.
High pH groundwater (5) 100 year floodplain (1) Other groundwater (3) Between stream/lake and other human use (1)
x Precipitation (1) Part of wetland/upland (e.g. forest), complex (1) Seasonal/Intermittent surface water (3) Part of riparian or upland corridor (1) Perennial surface water (lake or stream) (5) 3d. Duration inundation/saturation. Score one or dbl check.
3c. Maximum water depth. Select one. Semi- to permanently inundated/saturated (4) >0.7 (27.6in) (3) Regularly inundated/saturated (3) 0.4 to 0.7m (15.7 to 27.6in) (2) Seasonally inundated (2)
x <0.4m (<15.7in) (1) x Seasonally saturated in upper 30cm (12in) (1)
3e. Modifications to natural hydrologic regime. Score one or double check and average.
None or none apparent (12) Check all disturbances observed
Recovered (7) x ditch point source (nonstormwater) Recovering (3) tile x filling/grading
x Recent or no recovery (1) dike road bed/RR trackweir dredging
x stormwater input Other:
3 8 Metric 4. Habitat Alteration and Development.
max 20 pts. subtotal 4a. Substrate disturbance. Score one or double check and average.
None or none apparent (4)Recovered (3)Recovering (2)
x Recent or no recovery (1)
4b. Habitat development. Select only one and assign score.
Excellent (7)Very good (6)Good (5)Moderately good (4)Fair (3)Poor to fair (2)
x Poor (1)
4c. Habitat alteration. Score one or double check and average.
None or none apparent (9) Check all disturbances observed Recovered (6) x mowing shrub/sapling removal Recovering (3) grazing herbaceous/aquatic bed removal
x Recent or no recovery (1) clearcutting x sedimentation selective cutting dredging woody debris removal x farming toxic pollutants x nutrient enrichment
8subtotal this page ORAM v. 5.0 Field Form Quantitative Rating
Wetland CK-01.xlsm | test_Field 3/27/2019
Wetland CK-01Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
8 Wetland CK-01
subtotal this page
0 8 Metric 5. Special Wetlands.
max 10 pts. subtotal Check all that apply and score as indicated. Bog (10)
Fen (10)
Old growth forest (10)
Mature forested wetland (5)
Lake Erie coastal/tributary wetland-unrestricted hydrology (10)
Lake Erie coastal/tributary wetland-restricted hydrology (5)
Lake Plain Sand Prairies (Oak Openings) (10)
Relict Wet Praires (10)
Known occurrence state/federal threatened or endangered species (10)
Significant migratory songbird/water fowl habitat or usage (10)Category 1 Wetland. See Question 5 Qualitative Rating (-10)
-4 4 Metric 6. Plant communities, interspersion, microtopography.
max 20pts. subtotal 6a. Wetland Vegetation Communities. Vegetation Community Cover Scale Score all present using 0 to 3 scale. 0 Absent or comprises <0.1ha (0.2471 acres) contiguous area
Aquatic bed 1 Present and either comprises small part of wetland's 1
1 Emergent vegetation and is of moderate quality, or comprises a
Shrub significant part but is of low quality
Forest 2 Present and either comprises significant part of wetland's 2
Mudflats vegetation and is of moderate quality or comprises a small
Open water part and is of high quality
Other__________________ 3 Present and comprises significant part, or more, of wetland's 3
6b. horizontal (plan view) Interspersion. vegetation and is of high quality
Select only one.
High (5) Narrative Description of Vegetation Quality
Moderately high(4) Low spp diversity and/or predominance of nonnative or low
Moderate (3) disturbance tolerant native species
Moderately low (2) Native spp are dominant component of the vegetation, mod
Low (1) although nonnative and/or disturbance tolerant native spp
x None (0) can also be present, and species diversity moderate to
6c. Coverage of invasive plants. Refer moderately high, but generallyw/o presence of rare
Table 1 ORAM long form for list. Add threatened or endangered spp to
or deduct points for coverage A predominance of native species, with nonnative spp high
x Extensive >75% cover (-5) and/or disturbance tolerant native spp absent or virtually
Moderate 25-75% cover (-3) absent, and high spp diversity and often, but not always,
Sparse 5-25% cover (-1) the presence of rare, threatened, or endangered spp
Nearly absent <5% cover (0)
Absent (1) Mudflat and Open Water Class Quality
6d. Microtopography. 0 Absent <0.1ha (0.247 acres)
Score all present using 0 to 3 scale. 1 Low 0.1 to <1ha (0.247 to 2.47 acres)
Vegetated hummucks/tussucks 2 Moderate 1 to <4ha (2.47 to 9.88 acres)
Coarse woody debris >15cm (6in) 3 High 4ha (9.88 acres) or more
Standing dead >25cm (10in) dbh
Amphibian breeding pools Microtopography Cover Scale
0 Absent
1 Present very small amounts or if more common
of marginal quality
2 Present in moderate amounts, but not of highest Category 1 quality or in small amounts of highest quality
4 GRAND TOTAL(max 100 pts) 3 Present in moderate or greater amounts
and of highest quality
Wetland CK-01.xlsm | test_Field 3/27/2019
Wetland CK-02Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
1 1 Metric 1. Wetland Area (size). Wetland CK-02
max 6 pts subtotal Select one size class and assign score.
>50 acres (>20.2ha) (6 pts) 0.06 acres25 to <50 acres (10.1 to <20.2ha) (5 pts)10 to <25 acres (4 to <10.1ha) (4 pts)3 to <10 acres (1.2 to <4ha) (3 pts)0.3 to <3 acres (0.12 to <1.2ha) (2pts)
x 0.1 to <0.3 acres (0.04 to <0.12ha) (1 pt)<0.1 acres (0.04ha) (0 pts)
1 2 Metric 2. Upland buffers and surrounding land use.
max 14 pts. subtotal 2a. Calculate average buffer width. Select only one and assign score. Do not double check.
WIDE. Buffers average 50m (164ft) or more around wetland perimeter (7)MEDIUM. Buffers average 25m to <50m (82 to <164ft) around wetland perimeter (4)NARROW. Buffers average 10m to <25m (32ft to <82ft) around wetland perimeter (1)
x VERY NARROW. Buffers average <10m (<32ft) around wetland perimeter (0)
2b. Intensity of surrounding land use. Select one or double check and average.
VERY LOW. 2nd growth or older forest, prairie, savannah, wildlife area, etc. (7)
LOW. Old field (>10 years), shrubland, young second growth forest. (5)
MODERATELY HIGH. Residential, fenced pasture, park, conservation tillage, new fallow field. (3)
x HIGH. Urban, industrial, open pasture, row cropping, mining, construction. (1)
7.0 9.0 Metric 3. Hydrology.
max 30 pts. subtotal 3a. Sources of Water. Score all that apply. 3b. Connectivity. Score all that apply.
High pH groundwater (5) 100 year floodplain (1) Other groundwater (3) Between stream/lake and other human use (1)
x Precipitation (1) Part of wetland/upland (e.g. forest), complex (1) x Seasonal/Intermittent surface water (3) Part of riparian or upland corridor (1)
Perennial surface water (lake or stream) (5) 3d. Duration inundation/saturation. Score one or dbl check.
3c. Maximum water depth. Select one. Semi- to permanently inundated/saturated (4) >0.7 (27.6in) (3) Regularly inundated/saturated (3) 0.4 to 0.7m (15.7 to 27.6in) (2) Seasonally inundated (2)
x <0.4m (<15.7in) (1) x Seasonally saturated in upper 30cm (12in) (1)
3e. Modifications to natural hydrologic regime. Score one or double check and average.
None or none apparent (12) Check all disturbances observed
Recovered (7) x ditch point source (nonstormwater) Recovering (3) tile x filling/grading
x Recent or no recovery (1) dike road bed/RR trackweir dredging
x stormwater input Other:
3 12 Metric 4. Habitat Alteration and Development.
max 20 pts. subtotal 4a. Substrate disturbance. Score one or double check and average.
None or none apparent (4)Recovered (3)Recovering (2)
x Recent or no recovery (1)
4b. Habitat development. Select only one and assign score.
Excellent (7)Very good (6)Good (5)Moderately good (4)Fair (3)Poor to fair (2)
x Poor (1)
4c. Habitat alteration. Score one or double check and average.
None or none apparent (9) Check all disturbances observed Recovered (6) x mowing shrub/sapling removal Recovering (3) grazing herbaceous/aquatic bed removal
x Recent or no recovery (1) clearcutting x sedimentation selective cutting dredging woody debris removal x farming toxic pollutants x nutrient enrichment
12subtotal this page ORAM v. 5.0 Field Form Quantitative Rating
Wetland CK-02.xlsm | test_Field 3/27/2019
Wetland CK-02Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
12 Wetland CK-02
subtotal this page
0 12 Metric 5. Special Wetlands.
max 10 pts. subtotal Check all that apply and score as indicated. Bog (10)
Fen (10)
Old growth forest (10)
Mature forested wetland (5)
Lake Erie coastal/tributary wetland-unrestricted hydrology (10)
Lake Erie coastal/tributary wetland-restricted hydrology (5)
Lake Plain Sand Prairies (Oak Openings) (10)
Relict Wet Praires (10)
Known occurrence state/federal threatened or endangered species (10)
Significant migratory songbird/water fowl habitat or usage (10)Category 1 Wetland. See Question 5 Qualitative Rating (-10)
-4 8 Metric 6. Plant communities, interspersion, microtopography.
max 20pts. subtotal 6a. Wetland Vegetation Communities. Vegetation Community Cover Scale Score all present using 0 to 3 scale. 0 Absent or comprises <0.1ha (0.2471 acres) contiguous area
Aquatic bed 1 Present and either comprises small part of wetland's 1
1 Emergent vegetation and is of moderate quality, or comprises a
Shrub significant part but is of low quality
Forest 2 Present and either comprises significant part of wetland's 2
Mudflats vegetation and is of moderate quality or comprises a small
Open water part and is of high quality
Other__________________ 3 Present and comprises significant part, or more, of wetland's 3
6b. horizontal (plan view) Interspersion. vegetation and is of high quality
Select only one.
High (5) Narrative Description of Vegetation Quality
Moderately high(4) Low spp diversity and/or predominance of nonnative or low
Moderate (3) disturbance tolerant native species
Moderately low (2) Native spp are dominant component of the vegetation, mod
Low (1) although nonnative and/or disturbance tolerant native spp
x None (0) can also be present, and species diversity moderate to
6c. Coverage of invasive plants. Refer moderately high, but generallyw/o presence of rare
Table 1 ORAM long form for list. Add threatened or endangered spp to
or deduct points for coverage A predominance of native species, with nonnative spp high
x Extensive >75% cover (-5) and/or disturbance tolerant native spp absent or virtually
Moderate 25-75% cover (-3) absent, and high spp diversity and often, but not always,
Sparse 5-25% cover (-1) the presence of rare, threatened, or endangered spp
Nearly absent <5% cover (0)
Absent (1) Mudflat and Open Water Class Quality
6d. Microtopography. 0 Absent <0.1ha (0.247 acres)
Score all present using 0 to 3 scale. 1 Low 0.1 to <1ha (0.247 to 2.47 acres)
Vegetated hummucks/tussucks 2 Moderate 1 to <4ha (2.47 to 9.88 acres)
Coarse woody debris >15cm (6in) 3 High 4ha (9.88 acres) or more
Standing dead >25cm (10in) dbh
Amphibian breeding pools Microtopography Cover Scale
0 Absent
1 Present very small amounts or if more common
of marginal quality
2 Present in moderate amounts, but not of highest Category 1 quality or in small amounts of highest quality
8 GRAND TOTAL(max 100 pts) 3 Present in moderate or greater amounts
and of highest quality
Wetland CK-02.xlsm | test_Field 3/27/2019
Wetland CK-03a and CK-03bSite: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
2 2 Metric 1. Wetland Area (size). Wetland CK-03a&b
max 6 pts subtotal Select one size class and assign score.
>50 acres (>20.2ha) (6 pts) 0.04 acres25 to <50 acres (10.1 to <20.2ha) (5 pts)10 to <25 acres (4 to <10.1ha) (4 pts)3 to <10 acres (1.2 to <4ha) (3 pts)
x 0.3 to <3 acres (0.12 to <1.2ha) (2pts)0.1 to <0.3 acres (0.04 to <0.12ha) (1 pt)<0.1 acres (0.04ha) (0 pts)
11 13 Metric 2. Upland buffers and surrounding land use.
max 14 pts. subtotal 2a. Calculate average buffer width. Select only one and assign score. Do not double check.
WIDE. Buffers average 50m (164ft) or more around wetland perimeter (7)x MEDIUM. Buffers average 25m to <50m (82 to <164ft) around wetland perimeter (4)
NARROW. Buffers average 10m to <25m (32ft to <82ft) around wetland perimeter (1)VERY NARROW. Buffers average <10m (<32ft) around wetland perimeter (0)
2b. Intensity of surrounding land use. Select one or double check and average.
x VERY LOW. 2nd growth or older forest, prairie, savannah, wildlife area, etc. (7)
LOW. Old field (>10 years), shrubland, young second growth forest. (5)
MODERATELY HIGH. Residential, fenced pasture, park, conservation tillage, new fallow field. (3)
HIGH. Urban, industrial, open pasture, row cropping, mining, construction. (1)
13.0 26.0 Metric 3. Hydrology.
max 30 pts. subtotal 3a. Sources of Water. Score all that apply. 3b. Connectivity. Score all that apply.
High pH groundwater (5) 100 year floodplain (1) x Other groundwater (3) Between stream/lake and other human use (1) x Precipitation (1) Part of wetland/upland (e.g. forest), complex (1)
Seasonal/Intermittent surface water (3) Part of riparian or upland corridor (1) Perennial surface water (lake or stream) (5) 3d. Duration inundation/saturation. Score one or dbl check.
3c. Maximum water depth. Select one. Semi- to permanently inundated/saturated (4) >0.7 (27.6in) (3) Regularly inundated/saturated (3) 0.4 to 0.7m (15.7 to 27.6in) (2) Seasonally inundated (2)
x <0.4m (<15.7in) (1) x Seasonally saturated in upper 30cm (12in) (1)
3e. Modifications to natural hydrologic regime. Score one or double check and average.
None or none apparent (12) Check all disturbances observed
x Recovered (7) ditch point source (nonstormwater) Recovering (3) tile filling/grading Recent or no recovery (1) dike road bed/RR track
weir dredging stormwater input Other:
12 38 Metric 4. Habitat Alteration and Development.
max 20 pts. subtotal 4a. Substrate disturbance. Score one or double check and average.
None or none apparent (4)x Recovered (3)
Recovering (2)Recent or no recovery (1)
4b. Habitat development. Select only one and assign score.
Excellent (7)Very good (6)Good (5)Moderately good (4)
x Fair (3)Poor to fair (2)Poor (1)
4c. Habitat alteration. Score one or double check and average.
None or none apparent (9) Check all disturbances observed x Recovered (6) mowing shrub/sapling removal
Recovering (3) grazing herbaceous/aquatic bed removal Recent or no recovery (1) x clearcutting sedimentation
x selective cutting dredging woody debris removal farming toxic pollutants nutrient enrichment
38subtotal this page ORAM v. 5.0 Field Form Quantitative Rating
Wetland CK-03a&03b.xlsm | test_Field 3/27/2019
Wetland CK-03a and CK-03bSite: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
38 Wetland CK-03a&b
subtotal this page
0 38 Metric 5. Special Wetlands.
max 10 pts. subtotal Check all that apply and score as indicated. Bog (10)
Fen (10)
Old growth forest (10)
Mature forested wetland (5)
Lake Erie coastal/tributary wetland-unrestricted hydrology (10)
Lake Erie coastal/tributary wetland-restricted hydrology (5)
Lake Plain Sand Prairies (Oak Openings) (10)
Relict Wet Praires (10)
Known occurrence state/federal threatened or endangered species (10)
Significant migratory songbird/water fowl habitat or usage (10)Category 1 Wetland. See Question 5 Qualitative Rating (-10)
1 39 Metric 6. Plant communities, interspersion, microtopography.
max 20pts. subtotal 6a. Wetland Vegetation Communities. Vegetation Community Cover Scale Score all present using 0 to 3 scale. 0 Absent or comprises <0.1ha (0.2471 acres) contiguous area
Aquatic bed 1 Present and either comprises small part of wetland's 1
1 Emergent vegetation and is of moderate quality, or comprises a
1 Shrub significant part but is of low quality
1 Forest 2 Present and either comprises significant part of wetland's 2
Mudflats vegetation and is of moderate quality or comprises a small
Open water part and is of high quality
Other__________________ 3 Present and comprises significant part, or more, of wetland's 3
6b. horizontal (plan view) Interspersion. vegetation and is of high quality
Select only one.
High (5) Narrative Description of Vegetation Quality
Moderately high(4) Low spp diversity and/or predominance of nonnative or low
Moderate (3) disturbance tolerant native species
Moderately low (2) Native spp are dominant component of the vegetation, mod
x Low (1) although nonnative and/or disturbance tolerant native spp
None (0) can also be present, and species diversity moderate to
6c. Coverage of invasive plants. Refer moderately high, but generallyw/o presence of rare
Table 1 ORAM long form for list. Add threatened or endangered spp to
or deduct points for coverage A predominance of native species, with nonnative spp high
Extensive >75% cover (-5) and/or disturbance tolerant native spp absent or virtually
x Moderate 25-75% cover (-3) absent, and high spp diversity and often, but not always,
Sparse 5-25% cover (-1) the presence of rare, threatened, or endangered spp
Nearly absent <5% cover (0)
Absent (1) Mudflat and Open Water Class Quality
6d. Microtopography. 0 Absent <0.1ha (0.247 acres)
Score all present using 0 to 3 scale. 1 Low 0.1 to <1ha (0.247 to 2.47 acres)
Vegetated hummucks/tussucks 2 Moderate 1 to <4ha (2.47 to 9.88 acres)
Coarse woody debris >15cm (6in) 3 High 4ha (9.88 acres) or more
Standing dead >25cm (10in) dbh
Amphibian breeding pools Microtopography Cover Scale
0 Absent
1 Present very small amounts or if more common
of marginal quality
2 Present in moderate amounts, but not of highest Category 2 quality or in small amounts of highest quality
39 GRAND TOTAL(max 100 pts) 3 Present in moderate or greater amounts
and of highest quality
Wetland CK-03a&03b.xlsm | test_Field 3/27/2019
Wetland CK-04Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
0 0 Metric 1. Wetland Area (size). Wetland CK-04
max 6 pts subtotal Select one size class and assign score.
>50 acres (>20.2ha) (6 pts) 0.03 acres25 to <50 acres (10.1 to <20.2ha) (5 pts)10 to <25 acres (4 to <10.1ha) (4 pts)3 to <10 acres (1.2 to <4ha) (3 pts)0.3 to <3 acres (0.12 to <1.2ha) (2pts)0.1 to <0.3 acres (0.04 to <0.12ha) (1 pt)
x <0.1 acres (0.04ha) (0 pts)
11 11 Metric 2. Upland buffers and surrounding land use.
max 14 pts. subtotal 2a. Calculate average buffer width. Select only one and assign score. Do not double check.
WIDE. Buffers average 50m (164ft) or more around wetland perimeter (7)x MEDIUM. Buffers average 25m to <50m (82 to <164ft) around wetland perimeter (4)
NARROW. Buffers average 10m to <25m (32ft to <82ft) around wetland perimeter (1)VERY NARROW. Buffers average <10m (<32ft) around wetland perimeter (0)
2b. Intensity of surrounding land use. Select one or double check and average.
x VERY LOW. 2nd growth or older forest, prairie, savannah, wildlife area, etc. (7)
LOW. Old field (>10 years), shrubland, young second growth forest. (5)
MODERATELY HIGH. Residential, fenced pasture, park, conservation tillage, new fallow field. (3)
HIGH. Urban, industrial, open pasture, row cropping, mining, construction. (1)
13.0 24.0 Metric 3. Hydrology.
max 30 pts. subtotal 3a. Sources of Water. Score all that apply. 3b. Connectivity. Score all that apply.
High pH groundwater (5) 100 year floodplain (1) x Other groundwater (3) Between stream/lake and other human use (1) x Precipitation (1) Part of wetland/upland (e.g. forest), complex (1)
Seasonal/Intermittent surface water (3) Part of riparian or upland corridor (1) Perennial surface water (lake or stream) (5) 3d. Duration inundation/saturation. Score one or dbl check.
3c. Maximum water depth. Select one. Semi- to permanently inundated/saturated (4) >0.7 (27.6in) (3) Regularly inundated/saturated (3) 0.4 to 0.7m (15.7 to 27.6in) (2) Seasonally inundated (2)
x <0.4m (<15.7in) (1) x Seasonally saturated in upper 30cm (12in) (1)
3e. Modifications to natural hydrologic regime. Score one or double check and average.
None or none apparent (12) Check all disturbances observed
x Recovered (7) ditch point source (nonstormwater) Recovering (3) tile filling/grading Recent or no recovery (1) dike road bed/RR track
weir dredging stormwater input Other:
11 35 Metric 4. Habitat Alteration and Development.
max 20 pts. subtotal 4a. Substrate disturbance. Score one or double check and average.
None or none apparent (4)x Recovered (3)
Recovering (2)Recent or no recovery (1)
4b. Habitat development. Select only one and assign score.
Excellent (7)Very good (6)Good (5)Moderately good (4)Fair (3)
x Poor to fair (2)Poor (1)
4c. Habitat alteration. Score one or double check and average.
None or none apparent (9) Check all disturbances observed x Recovered (6) mowing shrub/sapling removal
Recovering (3) grazing herbaceous/aquatic bed removal Recent or no recovery (1) x clearcutting sedimentation
x selective cutting dredging woody debris removal farming toxic pollutants nutrient enrichment
35subtotal this page ORAM v. 5.0 Field Form Quantitative Rating
Wetland CK-04.xlsm | test_Field 3/26/2019
Wetland CK-04Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
35 Wetland CK-04
subtotal this page
0 35 Metric 5. Special Wetlands.
max 10 pts. subtotal Check all that apply and score as indicated. Bog (10)
Fen (10)
Old growth forest (10)
Mature forested wetland (5)
Lake Erie coastal/tributary wetland-unrestricted hydrology (10)
Lake Erie coastal/tributary wetland-restricted hydrology (5)
Lake Plain Sand Prairies (Oak Openings) (10)
Relict Wet Praires (10)
Known occurrence state/federal threatened or endangered species (10)
Significant migratory songbird/water fowl habitat or usage (10)Category 1 Wetland. See Question 5 Qualitative Rating (-10)
-2 33 Metric 6. Plant communities, interspersion, microtopography.
max 20pts. subtotal 6a. Wetland Vegetation Communities. Vegetation Community Cover Scale Score all present using 0 to 3 scale. 0 Absent or comprises <0.1ha (0.2471 acres) contiguous area
Aquatic bed 1 Present and either comprises small part of wetland's 1
1 Emergent vegetation and is of moderate quality, or comprises a
Shrub significant part but is of low quality
Forest 2 Present and either comprises significant part of wetland's 2
Mudflats vegetation and is of moderate quality or comprises a small
Open water part and is of high quality
Other__________________ 3 Present and comprises significant part, or more, of wetland's 3
6b. horizontal (plan view) Interspersion. vegetation and is of high quality
Select only one.
High (5) Narrative Description of Vegetation Quality
Moderately high(4) Low spp diversity and/or predominance of nonnative or low
Moderate (3) disturbance tolerant native species
Moderately low (2) Native spp are dominant component of the vegetation, mod
Low (1) although nonnative and/or disturbance tolerant native spp
x None (0) can also be present, and species diversity moderate to
6c. Coverage of invasive plants. Refer moderately high, but generallyw/o presence of rare
Table 1 ORAM long form for list. Add threatened or endangered spp to
or deduct points for coverage A predominance of native species, with nonnative spp high
Extensive >75% cover (-5) and/or disturbance tolerant native spp absent or virtually
x Moderate 25-75% cover (-3) absent, and high spp diversity and often, but not always,
Sparse 5-25% cover (-1) the presence of rare, threatened, or endangered spp
Nearly absent <5% cover (0)
Absent (1) Mudflat and Open Water Class Quality
6d. Microtopography. 0 Absent <0.1ha (0.247 acres)
Score all present using 0 to 3 scale. 1 Low 0.1 to <1ha (0.247 to 2.47 acres)
Vegetated hummucks/tussucks 2 Moderate 1 to <4ha (2.47 to 9.88 acres)
Coarse woody debris >15cm (6in) 3 High 4ha (9.88 acres) or more
Standing dead >25cm (10in) dbh
Amphibian breeding pools Microtopography Cover Scale
0 Absent
1 Present very small amounts or if more common
of marginal quality
2 Present in moderate amounts, but not of highest Mod. Category 2 quality or in small amounts of highest quality
33 GRAND TOTAL(max 100 pts) 3 Present in moderate or greater amounts
and of highest quality
Wetland CK-04.xlsm | test_Field 3/26/2019
Wetland CK-05Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
1 1 Metric 1. Wetland Area (size). Wetland CK-05
max 6 pts subtotal Select one size class and assign score.
>50 acres (>20.2ha) (6 pts) 0.02 acres25 to <50 acres (10.1 to <20.2ha) (5 pts)10 to <25 acres (4 to <10.1ha) (4 pts)3 to <10 acres (1.2 to <4ha) (3 pts)0.3 to <3 acres (0.12 to <1.2ha) (2pts)
x 0.1 to <0.3 acres (0.04 to <0.12ha) (1 pt)<0.1 acres (0.04ha) (0 pts)
2 3 Metric 2. Upland buffers and surrounding land use.
max 14 pts. subtotal 2a. Calculate average buffer width. Select only one and assign score. Do not double check.
WIDE. Buffers average 50m (164ft) or more around wetland perimeter (7)MEDIUM. Buffers average 25m to <50m (82 to <164ft) around wetland perimeter (4)
x NARROW. Buffers average 10m to <25m (32ft to <82ft) around wetland perimeter (1)VERY NARROW. Buffers average <10m (<32ft) around wetland perimeter (0)
2b. Intensity of surrounding land use. Select one or double check and average.
VERY LOW. 2nd growth or older forest, prairie, savannah, wildlife area, etc. (7)
LOW. Old field (>10 years), shrubland, young second growth forest. (5)
MODERATELY HIGH. Residential, fenced pasture, park, conservation tillage, new fallow field. (3)
x HIGH. Urban, industrial, open pasture, row cropping, mining, construction. (1)
9.0 12.0 Metric 3. Hydrology.
max 30 pts. subtotal 3a. Sources of Water. Score all that apply. 3b. Connectivity. Score all that apply.
High pH groundwater (5) 100 year floodplain (1) Other groundwater (3) Between stream/lake and other human use (1)
x Precipitation (1) Part of wetland/upland (e.g. forest), complex (1) x Seasonal/Intermittent surface water (3) Part of riparian or upland corridor (1)
Perennial surface water (lake or stream) (5) 3d. Duration inundation/saturation. Score one or dbl check.
3c. Maximum water depth. Select one. Semi- to permanently inundated/saturated (4) >0.7 (27.6in) (3) Regularly inundated/saturated (3) 0.4 to 0.7m (15.7 to 27.6in) (2) Seasonally inundated (2)
x <0.4m (<15.7in) (1) x Seasonally saturated in upper 30cm (12in) (1)
3e. Modifications to natural hydrologic regime. Score one or double check and average.
None or none apparent (12) Check all disturbances observed
Recovered (7) ditch point source (nonstormwater) x Recovering (3) tile x filling/grading
Recent or no recovery (1) dike road bed/RR trackweir dredging stormwater input Other:
6 18 Metric 4. Habitat Alteration and Development.
max 20 pts. subtotal 4a. Substrate disturbance. Score one or double check and average.
None or none apparent (4)Recovered (3)
x Recovering (2)Recent or no recovery (1)
4b. Habitat development. Select only one and assign score.
Excellent (7)Very good (6)Good (5)Moderately good (4)Fair (3)Poor to fair (2)
x Poor (1)
4c. Habitat alteration. Score one or double check and average.
None or none apparent (9) Check all disturbances observed Recovered (6) x mowing shrub/sapling removal
x Recovering (3) grazing herbaceous/aquatic bed removal Recent or no recovery (1) clearcutting sedimentation
selective cutting dredging woody debris removal x farming toxic pollutants nutrient enrichment
18subtotal this page ORAM v. 5.0 Field Form Quantitative Rating
Wetland CK-05.xlsm | test_Field 3/27/2019
Wetland CK-05Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
18 Wetland CK-05
subtotal this page
0 18 Metric 5. Special Wetlands.
max 10 pts. subtotal Check all that apply and score as indicated. Bog (10)
Fen (10)
Old growth forest (10)
Mature forested wetland (5)
Lake Erie coastal/tributary wetland-unrestricted hydrology (10)
Lake Erie coastal/tributary wetland-restricted hydrology (5)
Lake Plain Sand Prairies (Oak Openings) (10)
Relict Wet Praires (10)
Known occurrence state/federal threatened or endangered species (10)
Significant migratory songbird/water fowl habitat or usage (10)Category 1 Wetland. See Question 5 Qualitative Rating (-10)
-4 14 Metric 6. Plant communities, interspersion, microtopography.
max 20pts. subtotal 6a. Wetland Vegetation Communities. Vegetation Community Cover Scale Score all present using 0 to 3 scale. 0 Absent or comprises <0.1ha (0.2471 acres) contiguous area
Aquatic bed 1 Present and either comprises small part of wetland's 1
1 Emergent vegetation and is of moderate quality, or comprises a
Shrub significant part but is of low quality
Forest 2 Present and either comprises significant part of wetland's 2
Mudflats vegetation and is of moderate quality or comprises a small
Open water part and is of high quality
Other__________________ 3 Present and comprises significant part, or more, of wetland's 3
6b. horizontal (plan view) Interspersion. vegetation and is of high quality
Select only one.
High (5) Narrative Description of Vegetation Quality
Moderately high(4) Low spp diversity and/or predominance of nonnative or low
Moderate (3) disturbance tolerant native species
Moderately low (2) Native spp are dominant component of the vegetation, mod
Low (1) although nonnative and/or disturbance tolerant native spp
x None (0) can also be present, and species diversity moderate to
6c. Coverage of invasive plants. Refer moderately high, but generallyw/o presence of rare
Table 1 ORAM long form for list. Add threatened or endangered spp to
or deduct points for coverage A predominance of native species, with nonnative spp high
x Extensive >75% cover (-5) and/or disturbance tolerant native spp absent or virtually
Moderate 25-75% cover (-3) absent, and high spp diversity and often, but not always,
Sparse 5-25% cover (-1) the presence of rare, threatened, or endangered spp
Nearly absent <5% cover (0)
Absent (1) Mudflat and Open Water Class Quality
6d. Microtopography. 0 Absent <0.1ha (0.247 acres)
Score all present using 0 to 3 scale. 1 Low 0.1 to <1ha (0.247 to 2.47 acres)
Vegetated hummucks/tussucks 2 Moderate 1 to <4ha (2.47 to 9.88 acres)
Coarse woody debris >15cm (6in) 3 High 4ha (9.88 acres) or more
Standing dead >25cm (10in) dbh
Amphibian breeding pools Microtopography Cover Scale
0 Absent
1 Present very small amounts or if more common
of marginal quality
2 Present in moderate amounts, but not of highest Category 1 quality or in small amounts of highest quality
14 GRAND TOTAL(max 100 pts) 3 Present in moderate or greater amounts
and of highest quality
Wetland CK-05.xlsm | test_Field 3/27/2019
Wetland CK-06Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
0 0 Metric 1. Wetland Area (size). Wetland CK-06
max 6 pts subtotal Select one size class and assign score.
>50 acres (>20.2ha) (6 pts) 0.05 acres25 to <50 acres (10.1 to <20.2ha) (5 pts)10 to <25 acres (4 to <10.1ha) (4 pts)3 to <10 acres (1.2 to <4ha) (3 pts)0.3 to <3 acres (0.12 to <1.2ha) (2pts)0.1 to <0.3 acres (0.04 to <0.12ha) (1 pt)
x <0.1 acres (0.04ha) (0 pts)
2 2 Metric 2. Upland buffers and surrounding land use.
max 14 pts. subtotal 2a. Calculate average buffer width. Select only one and assign score. Do not double check.
WIDE. Buffers average 50m (164ft) or more around wetland perimeter (7)MEDIUM. Buffers average 25m to <50m (82 to <164ft) around wetland perimeter (4)
x NARROW. Buffers average 10m to <25m (32ft to <82ft) around wetland perimeter (1)VERY NARROW. Buffers average <10m (<32ft) around wetland perimeter (0)
2b. Intensity of surrounding land use. Select one or double check and average.
VERY LOW. 2nd growth or older forest, prairie, savannah, wildlife area, etc. (7)
LOW. Old field (>10 years), shrubland, young second growth forest. (5)
MODERATELY HIGH. Residential, fenced pasture, park, conservation tillage, new fallow field. (3)
x HIGH. Urban, industrial, open pasture, row cropping, mining, construction. (1)
6.0 8.0 Metric 3. Hydrology.
max 30 pts. subtotal 3a. Sources of Water. Score all that apply. 3b. Connectivity. Score all that apply.
High pH groundwater (5) 100 year floodplain (1) Other groundwater (3) Between stream/lake and other human use (1)
x Precipitation (1) Part of wetland/upland (e.g. forest), complex (1) Seasonal/Intermittent surface water (3) Part of riparian or upland corridor (1) Perennial surface water (lake or stream) (5) 3d. Duration inundation/saturation. Score one or dbl check.
3c. Maximum water depth. Select one. Semi- to permanently inundated/saturated (4) >0.7 (27.6in) (3) Regularly inundated/saturated (3) 0.4 to 0.7m (15.7 to 27.6in) (2) Seasonally inundated (2)
x <0.4m (<15.7in) (1) x Seasonally saturated in upper 30cm (12in) (1)
3e. Modifications to natural hydrologic regime. Score one or double check and average.
None or none apparent (12) Check all disturbances observed
Recovered (7) ditch point source (nonstormwater) x Recovering (3) tile x filling/grading
Recent or no recovery (1) dike x road bed/RR trackweir dredging stormwater input Other:
6 14 Metric 4. Habitat Alteration and Development.
max 20 pts. subtotal 4a. Substrate disturbance. Score one or double check and average.
None or none apparent (4)Recovered (3)
x Recovering (2)Recent or no recovery (1)
4b. Habitat development. Select only one and assign score.
Excellent (7)Very good (6)Good (5)Moderately good (4)Fair (3)Poor to fair (2)
x Poor (1)
4c. Habitat alteration. Score one or double check and average.
None or none apparent (9) Check all disturbances observed Recovered (6) x mowing x shrub/sapling removal
x Recovering (3) grazing herbaceous/aquatic bed removal Recent or no recovery (1) clearcutting x sedimentation
selective cutting dredging woody debris removal farming toxic pollutants nutrient enrichment
14subtotal this page ORAM v. 5.0 Field Form Quantitative Rating
Wetland CK-06.xlsm | test_Field 3/27/2019
Wetland CK-06Site: ATSI Crissinger-Kirby Rater(s): M.R.Kline, R.C.Massa Date: 3/18/2019
Field Id:
14 Wetland CK-06
subtotal this page
0 14 Metric 5. Special Wetlands.
max 10 pts. subtotal Check all that apply and score as indicated. Bog (10)
Fen (10)
Old growth forest (10)
Mature forested wetland (5)
Lake Erie coastal/tributary wetland-unrestricted hydrology (10)
Lake Erie coastal/tributary wetland-restricted hydrology (5)
Lake Plain Sand Prairies (Oak Openings) (10)
Relict Wet Praires (10)
Known occurrence state/federal threatened or endangered species (10)
Significant migratory songbird/water fowl habitat or usage (10)Category 1 Wetland. See Question 5 Qualitative Rating (-10)
-2 12 Metric 6. Plant communities, interspersion, microtopography.
max 20pts. subtotal 6a. Wetland Vegetation Communities. Vegetation Community Cover Scale Score all present using 0 to 3 scale. 0 Absent or comprises <0.1ha (0.2471 acres) contiguous area
Aquatic bed 1 Present and either comprises small part of wetland's 1
Emergent vegetation and is of moderate quality, or comprises a
1 Shrub significant part but is of low quality
Forest 2 Present and either comprises significant part of wetland's 2
Mudflats vegetation and is of moderate quality or comprises a small
Open water part and is of high quality
Other__________________ 3 Present and comprises significant part, or more, of wetland's 3
6b. horizontal (plan view) Interspersion. vegetation and is of high quality
Select only one.
High (5) Narrative Description of Vegetation Quality
Moderately high(4) Low spp diversity and/or predominance of nonnative or low
Moderate (3) disturbance tolerant native species
Moderately low (2) Native spp are dominant component of the vegetation, mod
Low (1) although nonnative and/or disturbance tolerant native spp
x None (0) can also be present, and species diversity moderate to
6c. Coverage of invasive plants. Refer moderately high, but generallyw/o presence of rare
Table 1 ORAM long form for list. Add threatened or endangered spp to
or deduct points for coverage A predominance of native species, with nonnative spp high
Extensive >75% cover (-5) and/or disturbance tolerant native spp absent or virtually
x Moderate 25-75% cover (-3) absent, and high spp diversity and often, but not always,
Sparse 5-25% cover (-1) the presence of rare, threatened, or endangered spp
Nearly absent <5% cover (0)
Absent (1) Mudflat and Open Water Class Quality
6d. Microtopography. 0 Absent <0.1ha (0.247 acres)
Score all present using 0 to 3 scale. 1 Low 0.1 to <1ha (0.247 to 2.47 acres)
Vegetated hummucks/tussucks 2 Moderate 1 to <4ha (2.47 to 9.88 acres)
Coarse woody debris >15cm (6in) 3 High 4ha (9.88 acres) or more
Standing dead >25cm (10in) dbh
Amphibian breeding pools Microtopography Cover Scale
0 Absent
1 Present very small amounts or if more common
of marginal quality
2 Present in moderate amounts, but not of highest Category 1 quality or in small amounts of highest quality
12 GRAND TOTAL(max 100 pts) 3 Present in moderate or greater amounts
and of highest quality
Wetland CK-06.xlsm | test_Field 3/27/2019
Wetland Delineation And Stream Assessment Report
Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
APPENDIX C
OEPA HHEI STREAM FORMS
Primary Headwater Habitat Evaluation Form HHEI Score (sum of metrics 1, 2, 3) :
SITE NAME/LOCATION _________________________________________________________________________________________________
________________________SITE NUMBER______________ RIVER BASIN _______________________ DRAINAGE AREA (mi2 ) __________
LENGTH OF STREAM REACH (ft) ___________ LAT. ____________ LONG. ___________ RIVER CODE _________ RIVER MILE _________
DATE ______________ SCORER _________________ COMMENTS ____________________________________________________________
NOTE: Complete All Items On This Form - Refer to “Field Evaluation Manual for Ohio’s PHWH Streams” for Instructions
STREAM CHANNEL MODIFICATIONS:
� NONE / NATURAL CHANNEL � RECOVERED � RECOVERING � RECENT OR NO RECOVERY
1. SUBSTRATE (Estimate percent of every type of substrate present. Check ONLY two predominant substrate TYPE boxes
(Max of 32). Add total number of significant substrate types found (Max of 8). Final metric score is sum of boxes A & B.
TYPE PERCENT TYPE PERCENT
� � BLDR SLABS [16 pts] ________ � � SILT [3 pt] ________
� � BOULDER (>256 mm) [16 pts] ________ � � LEAF PACK/WOODY DEBRIS [3 pts] ________
� � BEDROCK [16 pt] ________ � � FINE DETRITUS [3 pts] ________
� � COBBLE (65-256 mm) [12 pts] ________ � � CLAY or HARDPAN [0 pt] ________
� � GRAVEL (2-64 mm) [9 pts] ________ � � MUCK [0 pts] ________
� � SAND (<2 mm) [6 pts] ________ � � ARTIFICIAL [3 pts] ________
Total of Percentages of (A) (B) Bldr Slabs, Boulder, Cobble, Bedrock ________
SCORE OF TWO MOST PREDOMINATE SUBSTRATE TYPES: TOTAL NUMBER OF SUBSTRATE TYPES:
HHEIMetricPoints
Substrate
Max = 40
2. Maximum Pool Depth (Measure the maximum pool depth within the 61 meter (200 ft) evaluation reach at the time of
evaluation. Avoid plunge pools from road culverts or storm water pipes) (Check ONLY one box):
� > 30 centimeters [20 pts] � > 5 cm - 10 cm [15 pts]
� > 22.5 - 30 cm [30 pts] � < 5 cm [5 pts]
� > 10 - 22.5 cm [25 pts] � NO WATER OR MOIST CHANNEL [0 pts]
COMMENTS_________________________________________________ MAXIMUM POOL DEPTH (centimeters):
Pool Depth
Max = 30
3. BANK FULL WIDTH (Measured as the average of 3-4 measurements) (Check ONLY one box):
� > 4.0 meters (> 13') [30 pts] � > 1.0 m - 1.5 m (> 3' 3" - 4' 8") [15 pts]
� > 3.0 m - 4.0 m (> 9' 7" - 13') [25 pts] � # 1.0 m (<=3' 3") [5 pts]
� > 1.5 m - 3.0 m (> 9' 7" - 4' 8") [20 pts]
COMMENTS_________________________________________________ AVERAGE BANKFULL WIDTH (meters):
Bankfull
Width
Max=30
This information must also be completed
RIPARIAN ZONE AND FLOODPLAIN QUALITY qNOTE: River Left (L) and Right (R) as looking downstreamqRIPARIAN WIDTH FLOODPLAIN QUALITY
L R (Per Bank) L R (Most Predominant per Bank) L R
� � Wide >10m � � Mature Forest, Wetland � � Conservation Tillage
� � Moderate 5-10m � � Immature Forest, Shrub or Old
Field� � Urban or Industrial
� � Narrow <5m � � Residential, Park, New Field � � Open Pasture, Row Crop
� � None � � Fenced Pasture � � Mining or Construction
COMMENTS______________________________________________________________________________________
FLOW REGIME (At Time of Evaluation) (Check ONLY one box):
� Stream Flowing � Moist Channel, isolated pools, no flow (Intermittent)
� Subsurface flow with isolated pools (Interstitial) � Dry channel, no water (Ephemeral)
COMMENTS______________________________________________________________________________________
SINUOSITY (Number of bends per 61 m (200 ft) of channel) (Check ONLY one box):
� None � 1.0 � 2.0 � 3.0
� 0.5 � 1.5 � 2.5 � >3
STREAM GRADIENT ESTIMATE
� Flat (0.5 ft/100 ft) � Flat to Moderate � Moderate (2 ft/100 ft) � Moderate to Severe � Severe (10 ft/100 ft)
October 24, 2002 Revision PHWH Form Page - 1
A + B
(Inches):
(Feet):
ADDITIONAL STREAM INFORMATION (This Information Must Also be Completed):
QHEI PERFORMED? - � Yes � No QHEI Score __________ (If Yes, Attach Completed QHEI Form)
DOWNSTREAM DESIGNATED USE(S)
� WWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
� CWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
� EWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
MAPPING: ATTACH COPIES OF MAPS, INCLUDING THE ENTIRE WATERSHED AREA. CLEARLY MARK THE SITE LOCATION
USGS Quadrangle Name:___________________________________ NRCS Soil Map Page:_______ NRCS Soil Map Stream Order ______
County: ___________________________________________ Township / City:__________________________________________________
MISCELLANEOUS
Base Flow Conditions? (Y/N):_______ Date of last precipitation:____________________ Quantity:_____________
Photograph Information: _______________________________________________________________________________________________
Elevated Turbidity? (Y/N): _________ Canopy (% open): ____________
Were samples collected for water chemistry? (Y/N): _______ (Note lab sample no. or id. and attach results) Lab Number:__________________
Field Measures: Temp (°C)_______ Dissolved Oxygen (mg/l) _________ pH (S.U.) ________ Conductivity (µmhos/cm) ________________
Is the sampling reach representative of the stream (Y/N)_____ If not, please explain:______________________________________________
________________________________________________________________________________________________________________
Additional comments/description of pollution impacts:________________________________________________________________________
___________________________________________________________________________________________________________________
BIOTIC EVALUATION
Performed? (Y/N): ________ (If Yes, Record all observations. Voucher collections optional. NOTE: all voucher samples must be labeled with the site
ID number. Inc lude appropriate field data sheets from the Primary Headwater Habitat Assessment Manual)
Fish Observed? (Y/N)_____ Voucher? (Y/N)_____ Salamanders Observed? (Y/N)_____ Voucher? (Y/N)_____
Frogs or Tadpoles Observed? (Y/N)____ Voucher? (Y/N)____ Aquatic Macroinvertebrates Observed? (Y/N)____ Voucher? (Y/N)____
Comments Regarding Biology: _________________________________________________________________________________________
__________________________________________________________________________________________________________________
__________________________________________________________________________________________________________________
DRAWING AND NARRATIVE DESCRIPTION OF STREAM REACH (This must be completed):
Include important landmarks and other features of interest for site evaluation and a narrative description of the stream’s location
FLOW º
PHWH Form Page - 2October 24, 2002 Revision
Primary Headwater Habitat Evaluation Form HHEI Score (sum of metrics 1, 2, 3) :
SITE NAME/LOCATION _________________________________________________________________________________________________
________________________SITE NUMBER______________ RIVER BASIN _______________________ DRAINAGE AREA (mi2 ) __________
LENGTH OF STREAM REACH (ft) ___________ LAT. ____________ LONG. ___________ RIVER CODE _________ RIVER MILE _________
DATE ______________ SCORER _________________ COMMENTS ____________________________________________________________
NOTE: Complete All Items On This Form - Refer to “Field Evaluation Manual for Ohio’s PHWH Streams” for Instructions
STREAM CHANNEL MODIFICATIONS:
� NONE / NATURAL CHANNEL � RECOVERED � RECOVERING � RECENT OR NO RECOVERY
1. SUBSTRATE (Estimate percent of every type of substrate present. Check ONLY two predominant substrate TYPE boxes
(Max of 32). Add total number of significant substrate types found (Max of 8). Final metric score is sum of boxes A & B.
TYPE PERCENT TYPE PERCENT
� � BLDR SLABS [16 pts] ________ � � SILT [3 pt] ________
� � BOULDER (>256 mm) [16 pts] ________ � � LEAF PACK/WOODY DEBRIS [3 pts] ________
� � BEDROCK [16 pt] ________ � � FINE DETRITUS [3 pts] ________
� � COBBLE (65-256 mm) [12 pts] ________ � � CLAY or HARDPAN [0 pt] ________
� � GRAVEL (2-64 mm) [9 pts] ________ � � MUCK [0 pts] ________
� � SAND (<2 mm) [6 pts] ________ � � ARTIFICIAL [3 pts] ________
Total of Percentages of (A) (B) Bldr Slabs, Boulder, Cobble, Bedrock ________
SCORE OF TWO MOST PREDOMINATE SUBSTRATE TYPES: TOTAL NUMBER OF SUBSTRATE TYPES:
HHEIMetricPoints
Substrate
Max = 40
2. Maximum Pool Depth (Measure the maximum pool depth within the 61 meter (200 ft) evaluation reach at the time of
evaluation. Avoid plunge pools from road culverts or storm water pipes) (Check ONLY one box):
� > 30 centimeters [20 pts] � > 5 cm - 10 cm [15 pts]
� > 22.5 - 30 cm [30 pts] � < 5 cm [5 pts]
� > 10 - 22.5 cm [25 pts] � NO WATER OR MOIST CHANNEL [0 pts]
COMMENTS_________________________________________________ MAXIMUM POOL DEPTH (centimeters):
Pool Depth
Max = 30
3. BANK FULL WIDTH (Measured as the average of 3-4 measurements) (Check ONLY one box):
� > 4.0 meters (> 13') [30 pts] � > 1.0 m - 1.5 m (> 3' 3" - 4' 8") [15 pts]
� > 3.0 m - 4.0 m (> 9' 7" - 13') [25 pts] � # 1.0 m (<=3' 3") [5 pts]
� > 1.5 m - 3.0 m (> 9' 7" - 4' 8") [20 pts]
COMMENTS_________________________________________________ AVERAGE BANKFULL WIDTH (meters):
Bankfull
Width
Max=30
This information must also be completed
RIPARIAN ZONE AND FLOODPLAIN QUALITY qNOTE: River Left (L) and Right (R) as looking downstreamqRIPARIAN WIDTH FLOODPLAIN QUALITY
L R (Per Bank) L R (Most Predominant per Bank) L R
� � Wide >10m � � Mature Forest, Wetland � � Conservation Tillage
� � Moderate 5-10m � � Immature Forest, Shrub or Old
Field� � Urban or Industrial
� � Narrow <5m � � Residential, Park, New Field � � Open Pasture, Row Crop
� � None � � Fenced Pasture � � Mining or Construction
COMMENTS______________________________________________________________________________________
FLOW REGIME (At Time of Evaluation) (Check ONLY one box):
� Stream Flowing � Moist Channel, isolated pools, no flow (Intermittent)
� Subsurface flow with isolated pools (Interstitial) � Dry channel, no water (Ephemeral)
COMMENTS______________________________________________________________________________________
SINUOSITY (Number of bends per 61 m (200 ft) of channel) (Check ONLY one box):
� None � 1.0 � 2.0 � 3.0
� 0.5 � 1.5 � 2.5 � >3
STREAM GRADIENT ESTIMATE
� Flat (0.5 ft/100 ft) � Flat to Moderate � Moderate (2 ft/100 ft) � Moderate to Severe � Severe (10 ft/100 ft)
October 24, 2002 Revision PHWH Form Page - 1
A + B
(Inches):
(Feet):
ADDITIONAL STREAM INFORMATION (This Information Must Also be Completed):
QHEI PERFORMED? - � Yes � No QHEI Score __________ (If Yes, Attach Completed QHEI Form)
DOWNSTREAM DESIGNATED USE(S)
� WWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
� CWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
� EWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
MAPPING: ATTACH COPIES OF MAPS, INCLUDING THE ENTIRE WATERSHED AREA. CLEARLY MARK THE SITE LOCATION
USGS Quadrangle Name:___________________________________ NRCS Soil Map Page:_______ NRCS Soil Map Stream Order ______
County: ___________________________________________ Township / City:__________________________________________________
MISCELLANEOUS
Base Flow Conditions? (Y/N):_______ Date of last precipitation:____________________ Quantity:_____________
Photograph Information: _______________________________________________________________________________________________
Elevated Turbidity? (Y/N): _________ Canopy (% open): ____________
Were samples collected for water chemistry? (Y/N): _______ (Note lab sample no. or id. and attach results) Lab Number:__________________
Field Measures: Temp (°C)_______ Dissolved Oxygen (mg/l) _________ pH (S.U.) ________ Conductivity (µmhos/cm) ________________
Is the sampling reach representative of the stream (Y/N)_____ If not, please explain:______________________________________________
________________________________________________________________________________________________________________
Additional comments/description of pollution impacts:________________________________________________________________________
___________________________________________________________________________________________________________________
BIOTIC EVALUATION
Performed? (Y/N): ________ (If Yes, Record all observations. Voucher collections optional. NOTE: all voucher samples must be labeled with the site
ID number. Inc lude appropriate field data sheets from the Primary Headwater Habitat Assessment Manual)
Fish Observed? (Y/N)_____ Voucher? (Y/N)_____ Salamanders Observed? (Y/N)_____ Voucher? (Y/N)_____
Frogs or Tadpoles Observed? (Y/N)____ Voucher? (Y/N)____ Aquatic Macroinvertebrates Observed? (Y/N)____ Voucher? (Y/N)____
Comments Regarding Biology: _________________________________________________________________________________________
__________________________________________________________________________________________________________________
__________________________________________________________________________________________________________________
DRAWING AND NARRATIVE DESCRIPTION OF STREAM REACH (This must be completed):
Include important landmarks and other features of interest for site evaluation and a narrative description of the stream’s location
FLOW º
PHWH Form Page - 2October 24, 2002 Revision
Primary Headwater Habitat Evaluation Form HHEI Score (sum of metrics 1, 2, 3) :
SITE NAME/LOCATION _________________________________________________________________________________________________
________________________SITE NUMBER______________ RIVER BASIN _______________________ DRAINAGE AREA (mi2 ) __________
LENGTH OF STREAM REACH (ft) ___________ LAT. ____________ LONG. ___________ RIVER CODE _________ RIVER MILE _________
DATE ______________ SCORER _________________ COMMENTS ____________________________________________________________
NOTE: Complete All Items On This Form - Refer to “Field Evaluation Manual for Ohio’s PHWH Streams” for Instructions
STREAM CHANNEL MODIFICATIONS:
� NONE / NATURAL CHANNEL � RECOVERED � RECOVERING � RECENT OR NO RECOVERY
1. SUBSTRATE (Estimate percent of every type of substrate present. Check ONLY two predominant substrate TYPE boxes
(Max of 32). Add total number of significant substrate types found (Max of 8). Final metric score is sum of boxes A & B.
TYPE PERCENT TYPE PERCENT
� � BLDR SLABS [16 pts] ________ � � SILT [3 pt] ________
� � BOULDER (>256 mm) [16 pts] ________ � � LEAF PACK/WOODY DEBRIS [3 pts] ________
� � BEDROCK [16 pt] ________ � � FINE DETRITUS [3 pts] ________
� � COBBLE (65-256 mm) [12 pts] ________ � � CLAY or HARDPAN [0 pt] ________
� � GRAVEL (2-64 mm) [9 pts] ________ � � MUCK [0 pts] ________
� � SAND (<2 mm) [6 pts] ________ � � ARTIFICIAL [3 pts] ________
Total of Percentages of (A) (B) Bldr Slabs, Boulder, Cobble, Bedrock ________
SCORE OF TWO MOST PREDOMINATE SUBSTRATE TYPES: TOTAL NUMBER OF SUBSTRATE TYPES:
HHEIMetricPoints
Substrate
Max = 40
2. Maximum Pool Depth (Measure the maximum pool depth within the 61 meter (200 ft) evaluation reach at the time of
evaluation. Avoid plunge pools from road culverts or storm water pipes) (Check ONLY one box):
� > 30 centimeters [20 pts] � > 5 cm - 10 cm [15 pts]
� > 22.5 - 30 cm [30 pts] � < 5 cm [5 pts]
� > 10 - 22.5 cm [25 pts] � NO WATER OR MOIST CHANNEL [0 pts]
COMMENTS_________________________________________________ MAXIMUM POOL DEPTH (centimeters):
Pool Depth
Max = 30
3. BANK FULL WIDTH (Measured as the average of 3-4 measurements) (Check ONLY one box):
� > 4.0 meters (> 13') [30 pts] � > 1.0 m - 1.5 m (> 3' 3" - 4' 8") [15 pts]
� > 3.0 m - 4.0 m (> 9' 7" - 13') [25 pts] � # 1.0 m (<=3' 3") [5 pts]
� > 1.5 m - 3.0 m (> 9' 7" - 4' 8") [20 pts]
COMMENTS_________________________________________________ AVERAGE BANKFULL WIDTH (meters):
Bankfull
Width
Max=30
This information must also be completed
RIPARIAN ZONE AND FLOODPLAIN QUALITY qNOTE: River Left (L) and Right (R) as looking downstreamqRIPARIAN WIDTH FLOODPLAIN QUALITY
L R (Per Bank) L R (Most Predominant per Bank) L R
� � Wide >10m � � Mature Forest, Wetland � � Conservation Tillage
� � Moderate 5-10m � � Immature Forest, Shrub or Old
Field� � Urban or Industrial
� � Narrow <5m � � Residential, Park, New Field � � Open Pasture, Row Crop
� � None � � Fenced Pasture � � Mining or Construction
COMMENTS______________________________________________________________________________________
FLOW REGIME (At Time of Evaluation) (Check ONLY one box):
� Stream Flowing � Moist Channel, isolated pools, no flow (Intermittent)
� Subsurface flow with isolated pools (Interstitial) � Dry channel, no water (Ephemeral)
COMMENTS______________________________________________________________________________________
SINUOSITY (Number of bends per 61 m (200 ft) of channel) (Check ONLY one box):
� None � 1.0 � 2.0 � 3.0
� 0.5 � 1.5 � 2.5 � >3
STREAM GRADIENT ESTIMATE
� Flat (0.5 ft/100 ft) � Flat to Moderate � Moderate (2 ft/100 ft) � Moderate to Severe � Severe (10 ft/100 ft)
October 24, 2002 Revision PHWH Form Page - 1
A + B
(Inches):
(Feet):
ADDITIONAL STREAM INFORMATION (This Information Must Also be Completed):
QHEI PERFORMED? - � Yes � No QHEI Score __________ (If Yes, Attach Completed QHEI Form)
DOWNSTREAM DESIGNATED USE(S)
� WWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
� CWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
� EWH Name: ___________________________________________________________ Distance from Evaluated Stream _____________
MAPPING: ATTACH COPIES OF MAPS, INCLUDING THE ENTIRE WATERSHED AREA. CLEARLY MARK THE SITE LOCATION
USGS Quadrangle Name:___________________________________ NRCS Soil Map Page:_______ NRCS Soil Map Stream Order ______
County: ___________________________________________ Township / City:__________________________________________________
MISCELLANEOUS
Base Flow Conditions? (Y/N):_______ Date of last precipitation:____________________ Quantity:_____________
Photograph Information: _______________________________________________________________________________________________
Elevated Turbidity? (Y/N): _________ Canopy (% open): ____________
Were samples collected for water chemistry? (Y/N): _______ (Note lab sample no. or id. and attach results) Lab Number:__________________
Field Measures: Temp (°C)_______ Dissolved Oxygen (mg/l) _________ pH (S.U.) ________ Conductivity (µmhos/cm) ________________
Is the sampling reach representative of the stream (Y/N)_____ If not, please explain:______________________________________________
________________________________________________________________________________________________________________
Additional comments/description of pollution impacts:________________________________________________________________________
___________________________________________________________________________________________________________________
BIOTIC EVALUATION
Performed? (Y/N): ________ (If Yes, Record all observations. Voucher collections optional. NOTE: all voucher samples must be labeled with the site
ID number. Inc lude appropriate field data sheets from the Primary Headwater Habitat Assessment Manual)
Fish Observed? (Y/N)_____ Voucher? (Y/N)_____ Salamanders Observed? (Y/N)_____ Voucher? (Y/N)_____
Frogs or Tadpoles Observed? (Y/N)____ Voucher? (Y/N)____ Aquatic Macroinvertebrates Observed? (Y/N)____ Voucher? (Y/N)____
Comments Regarding Biology: _________________________________________________________________________________________
__________________________________________________________________________________________________________________
__________________________________________________________________________________________________________________
DRAWING AND NARRATIVE DESCRIPTION OF STREAM REACH (This must be completed):
Include important landmarks and other features of interest for site evaluation and a narrative description of the stream’s location
FLOW º
PHWH Form Page - 2October 24, 2002 Revision
Wetland Delineation And Stream Assessment Report
Crissinger-Kirby138 kV Transmission Line Loop and Crissinger Substation Expansion Project
APPENDIX D
REPRESENTATIVE STREAMS AND WETLANDS PHOTOGRAPHS
PHOTOGRAPHIC RECORD WETLANDS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 1
Facing North
Facing East
Facing West Facing South
Soil Pit
Date/Location:
March 18, 2019 Description:
Wetland CK-01 PEM Category 1
PHOTOGRAPHIC RECORD WETLANDS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 2
Facing North
Facing East
Facing West Facing South
Soil Pit
Date/Location:
March 18, 2019 Description:
Wetland CK-02 PEM Category 1
PHOTOGRAPHIC RECORD WETLANDS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 3
Facing North
Facing East
Facing West Facing South
Soil Pit
Date/Location:
March 18, 2019 Description:
Wetland CK-03a PFO Category 2
PHOTOGRAPHIC RECORD WETLANDS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 4
Facing North
Facing East
Facing West Facing South
Soil Pit
Date/Location:
March 18, 2019 Description:
Wetland CK-03b PSS Category 2
PHOTOGRAPHIC RECORD WETLANDS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 5
Facing North
Facing East
Facing West Facing South
Soil Pit
Date/Location:
March 18, 2019 Description:
Wetland CK-04 PEM Modified Category 2
PHOTOGRAPHIC RECORD WETLANDS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 6
Facing North
Facing East
Facing West Facing South
Soil Pit
Date/Location:
March 18, 2019 Description:
Wetland CK-05 PEM Category 1
PHOTOGRAPHIC RECORD WETLANDS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 7
Facing North
Facing East
Facing West Facing South
Soil Pit
Date/Location:
March 18, 2019 Description:
Wetland CK-06 PSS Category 1
PHOTOGRAPHIC RECORD STREAMS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 8
Facing Upstream
Facing Downstream
Substrate
Date:
March 18, 2019
Description:
Stream CK-01 Intermittent Modified Class 2
PHOTOGRAPHIC RECORD STREAMS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 9
Facing Upstream
Facing Downstream
Substrate
Date:
March 18, 2019
Description:
Stream CK-02 Intermittent Modified Class 2
PHOTOGRAPHIC RECORD STREAMS
Client Name:
American Transmission Systems, Inc.
Site Location:
Crissinger-Kirby138 kV Transmission Line Loop & Crissinger Substation Expansion Project
Project No.
60598782
Photo No. 10
Facing Upstream
Facing Downstream
Substrate
Date:
March 18, 2019
Description:
Stream CK-03 Perennial Modified Class 2
Kirby-Roberts 138 kV Transmission Line Loop to Crissinger Substation Project
Case Number 19-0803-EL-BLN
Exhibit 17 Access Map
Issued: April 8, 2019
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American Transmission Systems, Inc.Crissinger-Kirby 138kV
Transmission Line Loop and Crissinger Substation Project
Erosion and Sediment ControlsFigure 2-1 of 3
Source: BMCD, ESRI, FEMA, NWI, NHD, Bing Map Hybrid
LegendSurvey Corridor
! Existing Substation
") Proposed Structure
Proposed Crissinger-Kirby 138kV
Crissingers Roberts No. 2 – 138 kV
Existing Kirby-Roberts 138kV
Existing Span To Be Removed
") Existing Structures
Assumed 60ft Right-of-Way
Existing ROW for Existing Span to Be Removed
!( Road Crossing
Access Road
Laydown Area
Turnaround Area
Erosion and Sediment Controls
Delineated Stream TypeIntermittent
Perennial
Delineated Wetland Habitat TypePEM
PFO
PSS
Railroad
City or Town
Township Boundary
Floodplain
County Boundary
Impacted Parcel
Approximate Location of Conservation Easement
Matting is to be used in all wetlands, floodplains, floodways, and when crossing streams.
Issued: April 8, 2019
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American Transmission Systems, Inc.Crissinger-Kirby 138kV
Transmission Line Loop and Crissinger Substation Project
Erosion and Sediment ControlsFigure 2-2 of 3
Source: BMCD, ESRI, FEMA, NWI, NHD, Bing Map Hybrid
LegendSurvey Corridor
! Existing Substation
") Proposed Structure
Proposed Crissinger-Kirby 138kV
Crissingers Roberts No. 2 – 138 kV
Existing Kirby-Roberts 138kV
Existing Span To Be Removed
") Existing Structures
Assumed 60ft Right-of-Way
Existing ROW for Existing Span to Be Removed
!( Road Crossing
Access Road
Laydown Area
Turnaround Area
Erosion and Sediment Controls
Delineated Stream TypeIntermittent
Perennial
Delineated Wetland Habitat TypePEM
PFO
PSS
Railroad
City or Town
Township Boundary
Floodplain
County Boundary
Impacted Parcel
Approximate Location of Conservation Easement
Matting is to be used in all wetlands, floodplains, floodways, and when crossing streams.
Issued: April 8, 2019
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Ü0 200 400100Feet
American Transmission Systems, Inc.Crissinger-Kirby 138kV
Transmission Line Loop and Crissinger Substation Project
Erosion and Sediment ControlsFigure 2-3 of 3
Source: BMCD, ESRI, FEMA, NWI, NHD, Bing Map Hybrid
LegendSurvey Corridor
! Existing Substation
") Proposed Structure
Proposed Crissinger-Kirby 138kV
Crissingers Roberts No. 2 – 138 kV
Existing Kirby-Roberts 138kV
Existing Span To Be Removed
") Existing Structures
Assumed 60ft Right-of-Way
Existing ROW for Existing Span to Be Removed
!( Road Crossing
Access Road
Laydown Area
Turnaround Area
Erosion and Sediment Controls
Delineated Stream TypeIntermittent
Perennial
Delineated Wetland Habitat TypePEM
PFO
PSS
Railroad
City or Town
Township Boundary
Floodplain
County Boundary
Impacted Parcel
Approximate Location of Conservation Easement
Matting is to be used in all wetlands, floodplains, floodways, and when crossing streams.